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425.539 0.48 12 re f 365.281 425.539 0.48 12 re f 436.081 425.539 0.48 12 re f 512.881 425.539 0.48 12 re f BT 10.8 0 0 10.8 98.161 415.459 Tm [(BVC 4.1)-3910.5(4,56)-4294.4(0,0150)-4716.7(49)-5555.6(85)-6088.9(8)]TJ ET 81.601 425.059 431.76 0.48 re f 81.601 413.059 0.48 12 re f 152.641 413.059 0.48 12 re f 223.441 413.059 0.48 12 re f 294.481 413.059 0.48 12 re f 365.281 413.059 0.48 12 re f 436.081 413.059 0.48 12 re f 512.881 413.059 0.48 12 re f BT 10.8 0 0 10.8 98.161 402.979 Tm [(BVC 4.2)-3910.5(3,64)-4294.4(0,0190)-4716.7(71)-5555.6(85)-6088.9(7)]TJ ET 81.601 412.579 431.76 0.48 re f 81.601 400.579 0.48 12 re f 152.641 400.579 0.48 12 re f 223.441 400.579 0.48 12 re f 294.481 400.579 0.48 12 re f 365.281 400.579 0.48 12 re f 436.081 400.579 0.48 12 re f 512.881 400.579 0.48 12 re f BT 10.8 0 0 10.8 98.161 390.499 Tm [(BVC 4.3)-3910.5(9,65)-4294.4(0,0060)-4716.7(22)-5555.6(82)-5844.4(25)]TJ ET 81.601 400.099 431.76 0.48 re f 81.601 388.099 0.48 12 re f 152.641 388.099 0.48 12 re f 223.441 388.099 0.48 12 re f 294.481 388.099 0.48 12 re f 365.281 388.099 0.48 12 re f 436.081 388.099 0.48 12 re f 512.881 388.099 0.48 12 re f 0.753 g 95.761 375.619 43.44 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 95.761 378.019 Tm 0 g (Versant C)Tj ET 0.753 g 176.161 375.619 24.24 12 re f BT 10.8 0 0 10.8 176.161 378.019 Tm 0 g (94,41)Tj ET 0.753 g 244.081 375.619 29.76 12 re f BT 10.8 0 0 10.8 244.081 378.019 Tm 0 g (0,0085)Tj ET 0.753 g 324.721 375.619 10.8 12 re f BT 10.8 0 0 10.8 324.721 378.019 Tm 0 g (36)Tj ET 0.753 g 395.521 375.619 10.8 12 re f BT 10.8 0 0 10.8 395.521 378.019 Tm 0 g (85)Tj ET 0.753 g 469.441 375.619 10.8 12 re f BT 10.8 0 0 10.8 469.441 378.019 Tm 0 g (68)Tj ET 81.601 387.619 431.76 0.48 re f 81.601 375.619 0.48 12 re f 152.641 375.619 0.48 12 re f 223.441 375.619 0.48 12 re f 294.481 375.619 0.48 12 re f 365.281 375.619 0.48 12 re f 436.081 375.619 0.48 12 re f 512.881 375.619 0.48 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 106.081 365.539 Tm [(BVD)-4622(5,81)-4561.1(0,018)-4950(71)-5555.6(85)-5844.4(11)]TJ ET 81.601 375.139 431.76 0.48 re f 81.601 363.139 0.48 12 re f 152.641 363.139 0.48 12 re f 223.441 363.139 0.48 12 re f 294.481 363.139 0.48 12 re f 365.281 363.139 0.48 12 re f 436.081 363.139 0.48 12 re f 512.881 363.139 0.48 12 re f 0.753 g 88.081 350.659 58.56 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 88.081 353.059 Tm 0 g (Versant C+D)Tj ET 0.753 g 173.281 350.659 29.76 12 re f BT 10.8 0 0 10.8 173.281 353.059 Tm 0 g (100,22)Tj ET 0.753 g 244.081 350.659 29.76 12 re f BT 10.8 0 0 10.8 244.081 353.059 Tm 0 g (0,0085)Tj ET 0.753 g 324.721 350.659 10.8 12 re f BT 10.8 0 0 10.8 324.721 353.059 Tm 0 g (34)Tj ET 0.753 g 395.521 350.659 10.8 12 re f BT 10.8 0 0 10.8 395.521 353.059 Tm 0 g (85)Tj ET 0.753 g 469.441 350.659 10.8 12 re f BT 10.8 0 0 10.8 469.441 353.059 Tm 0 g (68)Tj ET 81.601 362.659 431.76 0.48 re f 81.601 349.939 0.48 12.72 re f 82.081 349.939 70.56 0.48 re f 152.641 349.939 0.48 12.72 re f 153.121 349.939 70.32 0.48 re f 223.441 349.939 0.48 12.72 re f 223.921 349.939 70.56 0.48 re f 294.481 349.939 0.48 12.72 re f 294.961 349.939 70.32 0.48 re f 365.281 349.939 0.48 12.72 re f 365.761 349.939 70.32 0.48 re f 436.081 349.939 0.48 12.72 re f 436.561 349.939 76.32 0.48 re f 512.881 349.939 0.48 12.72 re f 0.898 0.949 1 rg 60.961 301.219 473.04 12.72 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 304.579 Tm 0 g (2 – D)Tj 10.8 0 0 10.8 135.841 304.579 Tm 0.0006 Tw (ESCRIPTION DES RESEAUX)Tj ET 60.961 300.739 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 264.019 Tm 0.0196 Tc 0.1964 Tw (Dans ce tableau, la description des tronçons sera surtout effectuée pour les zones)Tj -2.94 -1 TD 0 Tc 0.0004 Tw (recensées problématiques ou susceptibles de le devenir. La capacité des tronçons a été calculée en)Tj T* 0.0012 Tc 0.0127 Tw [(écoulement libre \(pas de mise en charge\) réseau plein par )-17.7(Manning-Strickler en tenant compte de)]TJ T* 0 Tc 0 Tw (l’état des réseaux.)Tj 2.96 -2 TD 0.0009 Tc 0.0095 Tw (Il est à noter que le tracé de quelques tronçons n’a pu être exactement déterminé en raison)Tj -2.96 -1 TD 0.0049 Tc 0.0491 Tw (de leur inaccessibilité. Nous avons donc extrapolé leurs caractéristiques d’après les tronçons en)Tj T* 0 Tc 0.0001 Tw (amont et aval et demandé confirmation aux services techniques communaux.)Tj ET endstream endobj 28 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT10 13 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 30 0 obj << /Length 17256 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 498.481 80.6591 Tm 0.01 Tw (p. 8)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.921 761.539 Tm 0.0001 Tw (Le détail du réseau est fourni en annexe.)Tj ET 0.851 g 60.961 720.979 100.32 25.68 re f BT /TT4 1 Tf 12 0 0 12 86.401 730.339 Tm 0 g 0 Tw (Versant C)Tj ET 0.851 g 161.761 720.979 60.48 25.68 re f BT 12 0 0 12 170.401 730.339 Tm 0 g (Tronçon)Tj ET 0.851 g 222.721 720.979 60.48 25.68 re f BT 12 0 0 12 229.681 736.339 Tm 0 g (Diamètre)Tj ET 0.851 g 223.921 721.939 58.08 12 re f BT 12 0 0 12 239.521 724.339 Tm 0 g (\(mm\))Tj ET 0.851 g 283.681 720.979 60.48 25.68 re f BT 12 0 0 12 299.761 736.339 Tm 0 g (Pente)Tj ET 0.851 g 284.881 721.939 58.08 12 re f BT 12 0 0 12 308.641 724.339 Tm 0 g (%)Tj ET 0.851 g 344.641 720.979 60.48 25.68 re f BT 12 0 0 12 353.041 730.339 Tm 0 g (Rugosité)Tj ET 0.851 g 405.601 720.979 60.48 25.68 re f BT 12 0 0 12 410.881 736.339 Tm 0 g 0.0001 Tc (Longueur)Tj ET 0.851 g 406.801 721.939 58.08 12 re f BT 12 0 0 12 426.961 724.339 Tm 0 g 0 Tc (\(m\))Tj ET 0.851 g 466.561 720.979 67.44 25.68 re f BT 12 0 0 12 478.321 736.339 Tm 0 g (Capacité)Tj ET 0.851 g 467.761 721.939 65.04 12 re f BT 12 0 0 12 484.321 724.339 Tm 0 g (\(m3/s\))Tj ET 60.481 746.659 474 0.48 re f 60.481 720.979 0.48 25.68 re f 161.281 720.979 0.48 25.68 re f 222.241 720.979 0.48 25.68 re f 283.201 720.979 0.48 25.68 re f 344.161 720.979 0.48 25.68 re f 405.121 720.979 0.48 25.68 re f 466.081 720.979 0.48 25.68 re f 534.001 720.979 0.48 25.68 re f BT /TT6 1 Tf 10.8 0 0 10.8 185.761 710.899 Tm [(L1)-3978.1(Ø400)-3666.7(0,86)-3650(0,017)-4261.1(7)-4833.3(0,15)]TJ ET 60.481 720.499 474 0.48 re f 60.481 708.499 0.48 12 re f 161.281 708.499 0.48 12 re f 222.241 708.499 0.48 12 re f 283.201 708.499 0.48 12 re f 344.161 708.499 0.48 12 re f 405.121 708.499 0.48 12 re f 466.081 708.499 0.48 12 re f 534.001 708.499 0.48 12 re f BT 10.8 0 0 10.8 185.761 698.419 Tm [(L2)-3978.1(Ø600)-3666.7(1,11)-3650(0,017)-4016.7(35)-4577.8(0,50)]TJ ET 60.481 708.019 0.48 0.48 re f 161.281 708.019 373.2 0.48 re f 60.481 696.019 0.48 12 re f 161.281 696.019 0.48 12 re f 222.241 696.019 0.48 12 re f 283.201 696.019 0.48 12 re f 344.161 696.019 0.48 12 re f 405.121 696.019 0.48 12 re f 466.081 696.019 0.48 12 re f 534.001 696.019 0.48 12 re f BT 10.8 0 0 10.8 104.401 698.6591 Tm (1.1)Tj 7.5333 -1.1778 TD [(L3)-3955.8(Fossé)-3632.8(0,81)-3650(0,033)-3750(200)-4344.4(0,81)]TJ ET 60.481 695.539 0.48 0.48 re f 161.281 695.539 373.2 0.48 re f 60.481 683.539 0.48 12 re f 161.281 683.539 0.48 12 re f 222.241 683.539 0.48 12 re f 283.201 683.539 0.48 12 re f 344.161 683.539 0.48 12 re f 405.121 683.539 0.48 12 re f 466.081 683.539 0.48 12 re f 534.001 683.539 0.48 12 re f BT 10.8 0 0 10.8 185.761 673.459 Tm [(L4)-3978.1(Ø400)-3666.7(0,86)-3650(0,017)-4261.1(7)-4833.3(0,15)]TJ ET 60.481 683.059 474 0.48 re f 60.481 670.819 0.48 12.24 re f 161.281 670.819 0.48 12.24 re f 222.241 670.819 0.48 12.24 re f 283.201 670.819 0.48 12.24 re f 344.161 670.819 0.48 12.24 re f 405.121 670.819 0.48 12.24 re f 466.081 670.819 0.48 12.24 re f 534.001 670.819 0.48 12.24 re f BT 10.8 0 0 10.8 185.761 660.739 Tm [(L5)-3978.1(Ø300)-3666.7(1,19)-3650(0,017)-4016.7(63)-4577.8(0,08)]TJ ET 60.481 670.339 0.48 0.48 re f 161.281 670.339 373.2 0.48 re f 60.481 658.339 0.48 12 re f 161.281 658.339 0.48 12 re f 222.241 658.339 0.48 12 re f 283.201 658.339 0.48 12 re f 344.161 658.339 0.48 12 re f 405.121 658.339 0.48 12 re f 466.081 658.339 0.48 12 re f 534.001 658.339 0.48 12 re f BT 10.8 0 0 10.8 104.401 661.219 Tm (1.2)Tj 7.5333 -1.2 TD [(L6)-3955.8(Fossé)-3632.8(1,17)-3650(0,033)-3750(173)-4344.4(0,57)]TJ ET 60.481 657.859 0.48 0.48 re f 161.281 657.859 373.2 0.48 re f 60.481 645.859 0.48 12 re f 161.281 645.859 0.48 12 re f 222.241 645.859 0.48 12 re f 283.201 645.859 0.48 12 re f 344.161 645.859 0.48 12 re f 405.121 645.859 0.48 12 re f 466.081 645.859 0.48 12 re f 534.001 645.859 0.48 12 re f BT 10.8 0 0 10.8 185.761 635.7791 Tm [(L8)-3978.1(Ø400)-3488.9(-0,57)-3494.8(0,018)-4261.1(7)-5566.7(/)]TJ ET 60.481 645.379 474 0.48 re f 60.481 633.379 0.48 12 re f 161.281 633.379 0.48 12 re f 222.241 633.379 0.48 12 re f 283.201 633.379 0.48 12 re f 344.161 633.379 0.48 12 re f 405.121 633.379 0.48 12 re f 466.081 633.379 0.48 12 re f 534.001 633.379 0.48 12 re f BT 10.8 0 0 10.8 104.401 629.7791 Tm (1.3)Tj 7.5333 -0.6 TD [(L9)-3955.8(Fossé)-3632.8(0,46)-3650(0,033)-3750(164)-4344.4(0,69)]TJ ET 60.481 632.899 0.48 0.48 re f 161.281 632.899 373.2 0.48 re f 60.481 620.899 0.48 12 re f 161.281 620.899 0.48 12 re f 222.241 620.899 0.48 12 re f 283.201 620.899 0.48 12 re f 344.161 620.899 0.48 12 re f 405.121 620.899 0.48 12 re f 466.081 620.899 0.48 12 re f 534.001 620.899 0.48 12 re f BT 10.8 0 0 10.8 84.721 610.819 Tm [(1.1+1.2+1.3)-4233.2(L15)-3700.3(Fossé)-3632.8(0,71)-3650(0,033)-3750(315)-4344.4(1,39)]TJ ET 60.481 620.419 474 0.48 re f 60.481 608.419 0.48 12 re f 161.281 608.419 0.48 12 re f 222.241 608.419 0.48 12 re f 283.201 608.419 0.48 12 re f 344.161 608.419 0.48 12 re f 405.121 608.419 0.48 12 re f 466.081 608.419 0.48 12 re f 534.001 608.419 0.48 12 re f BT 10.8 0 0 10.8 183.121 598.339 Tm [(L20)-3722.5(Ø600)-3666.7(0,56)-3650(0,017)-4261.1(9)-4833.3(0,35)]TJ ET 60.481 607.939 474 0.48 re f 60.481 595.939 0.48 12 re f 161.281 595.939 0.48 12 re f 222.241 595.939 0.48 12 re f 283.201 595.939 0.48 12 re f 344.161 595.939 0.48 12 re f 405.121 595.939 0.48 12 re f 466.081 595.939 0.48 12 re f 534.001 595.939 0.48 12 re f BT 10.8 0 0 10.8 108.481 592.339 Tm (1)Tj 6.9111 -0.6 TD [(L21)-3722.5(Ø800)-3666.7(1,70)-3650(0,017)-4016.7(10)-4577.8(1,32)]TJ ET 60.481 595.459 0.48 0.48 re f 161.281 595.459 373.2 0.48 re f 60.481 583.459 0.48 12 re f 161.281 583.459 0.48 12 re f 222.241 583.459 0.48 12 re f 283.201 583.459 0.48 12 re f 344.161 583.459 0.48 12 re f 405.121 583.459 0.48 12 re f 466.081 583.459 0.48 12 re f 534.001 583.459 0.48 12 re f BT 10.8 0 0 10.8 180.721 573.379 Tm [(L22a)-3500.9(Ø300)-3666.7(1,79)-3650(0,017)-4016.7(14)-4577.8(0,10)]TJ ET 60.481 582.979 474 0.48 re f 60.481 570.979 0.48 12 re f 161.281 570.979 0.48 12 re f 222.241 570.979 0.48 12 re f 283.201 570.979 0.48 12 re f 344.161 570.979 0.48 12 re f 405.121 570.979 0.48 12 re f 466.081 570.979 0.48 12 re f 534.001 570.979 0.48 12 re f BT 10.8 0 0 10.8 104.401 567.379 Tm (2.1)Tj 7.0444 -0.6 TD [(L22b)-3466.9(Ø300)-3666.7(1,79)-3650(0,017)-4016.7(14)-4577.8(0,10)]TJ ET 60.481 570.499 0.48 0.48 re f 161.281 570.499 373.2 0.48 re f 60.481 558.499 0.48 12 re f 161.281 558.499 0.48 12 re f 222.241 558.499 0.48 12 re f 283.201 558.499 0.48 12 re f 344.161 558.499 0.48 12 re f 405.121 558.499 0.48 12 re f 466.081 558.499 0.48 12 re f 534.001 558.499 0.48 12 re f BT 10.8 0 0 10.8 183.121 548.4191 Tm [(L23)-3700.3(Fossé)-3632.8(0,81)-3650(0,033)-4016.7(96)-4577.8(3,50)]TJ ET 60.481 558.019 474 0.48 re f 60.481 546.019 0.48 12 re f 161.281 546.019 0.48 12 re f 222.241 546.019 0.48 12 re f 283.201 546.019 0.48 12 re f 344.161 546.019 0.48 12 re f 405.121 546.019 0.48 12 re f 466.081 546.019 0.48 12 re f 534.001 546.019 0.48 12 re f BT 10.8 0 0 10.8 98.641 542.4191 Tm (1+2.1)Tj 7.8222 -0.6 TD [(L24)-3722.5(Ø800)-3666.7(0,85)-3650(0,017)-3750(132)-4344.4(0,93)]TJ ET 60.481 545.539 0.48 0.48 re f 161.281 545.539 373.2 0.48 re f 60.481 533.539 0.48 12 re f 161.281 533.539 0.48 12 re f 222.241 533.539 0.48 12 re f 283.201 533.539 0.48 12 re f 344.161 533.539 0.48 12 re f 405.121 533.539 0.48 12 re f 466.081 533.539 0.48 12 re f 534.001 533.539 0.48 12 re f BT 10.8 0 0 10.8 183.121 523.459 Tm [(L25)-3722.5(Ø800)-3666.7(3,60)-3650(0,017)-4261.1(5)-4833.3(1,92)]TJ ET 60.481 533.059 474 0.48 re f 60.481 520.819 0.48 12.24 re f 161.281 520.819 0.48 12.24 re f 222.241 520.819 0.48 12.24 re f 283.201 520.819 0.48 12.24 re f 344.161 520.819 0.48 12.24 re f 405.121 520.819 0.48 12.24 re f 466.081 520.819 0.48 12.24 re f 534.001 520.819 0.48 12.24 re f BT 10.8 0 0 10.8 183.121 510.739 Tm [(L26)-3700.3(Fossé)-3632.8(0,47)-3650(0,033)-4016.7(73)-4577.8(2,25)]TJ ET 60.481 520.339 0.48 0.48 re f 161.281 520.339 373.2 0.48 re f 60.481 508.339 0.48 12 re f 161.281 508.339 0.48 12 re f 222.241 508.339 0.48 12 re f 283.201 508.339 0.48 12 re f 344.161 508.339 0.48 12 re f 405.121 508.339 0.48 12 re f 466.081 508.339 0.48 12 re f 534.001 508.339 0.48 12 re f BT 10.8 0 0 10.8 183.121 498.259 Tm [(L30)-3722.5(Ø800)-3666.7(0,37)-3650(0,017)-4016.7(94)-4577.8(0,62)]TJ ET 60.481 507.859 0.48 0.48 re f 161.281 507.859 373.2 0.48 re f 60.481 495.859 0.48 12 re f 161.281 495.859 0.48 12 re f 222.241 495.859 0.48 12 re f 283.201 495.859 0.48 12 re f 344.161 495.859 0.48 12 re f 405.121 495.859 0.48 12 re f 466.081 495.859 0.48 12 re f 534.001 495.859 0.48 12 re f BT 10.8 0 0 10.8 180.721 485.779 Tm [(L31a)-3500.9(Ø600)-3666.7(0,00)-3650(0,017)-4016.7(24)-5311.1(/)]TJ ET 60.481 495.379 0.48 0.48 re f 161.281 495.379 373.2 0.48 re f 60.481 483.379 0.48 12 re f 161.281 483.379 0.48 12 re f 222.241 483.379 0.48 12 re f 283.201 483.379 0.48 12 re f 344.161 483.379 0.48 12 re f 405.121 483.379 0.48 12 re f 466.081 483.379 0.48 12 re f 534.001 483.379 0.48 12 re f BT 10.8 0 0 10.8 88.801 498.739 Tm (1+2.1+2.2)Tj 8.4889 -2.3556 TD [(L31b)-3466.9(Ø400)-3666.7(1,36)-3650(0,018)-4016.7(11)-4577.8(0,71)]TJ ET 60.481 482.899 0.48 0.48 re f 161.281 482.899 373.2 0.48 re f 60.481 470.899 0.48 12 re f 161.281 470.899 0.48 12 re f 222.241 470.899 0.48 12 re f 283.201 470.899 0.48 12 re f 344.161 470.899 0.48 12 re f 405.121 470.899 0.48 12 re f 466.081 470.899 0.48 12 re f 534.001 470.899 0.48 12 re f BT 10.8 0 0 10.8 104.401 460.819 Tm [(2.3)-6038.9(L35)-3722.5(Ø300)-3666.7(1,33)-3650(0,017)-3750(117)-4344.4(0,09)]TJ ET 60.481 470.419 474 0.48 re f 60.481 458.419 0.48 12 re f 161.281 458.419 0.48 12 re f 222.241 458.419 0.48 12 re f 283.201 458.419 0.48 12 re f 344.161 458.419 0.48 12 re f 405.121 458.419 0.48 12 re f 466.081 458.419 0.48 12 re f 534.001 458.419 0.48 12 re f BT 10.8 0 0 10.8 183.121 448.339 Tm [(L40)-3722.5(Ø800)-3666.7(1,69)-3650(0,017)-4016.7(16)-4577.8(1,31)]TJ ET 60.481 457.939 474 0.48 re f 60.481 445.939 0.48 12 re f 161.281 445.939 0.48 12 re f 222.241 445.939 0.48 12 re f 283.201 445.939 0.48 12 re f 344.161 445.939 0.48 12 re f 405.121 445.939 0.48 12 re f 466.081 445.939 0.48 12 re f 534.001 445.939 0.48 12 re f BT 10.8 0 0 10.8 102.721 442.339 Tm (1+2)Tj 7.4444 -0.6 TD [(L41)-3722.5(Ø800)-3666.7(0,81)-3650(0,017)-4016.7(68)-4577.8(0,91)]TJ ET 60.481 445.459 0.48 0.48 re f 161.281 445.459 373.2 0.48 re f 60.481 433.459 0.48 12 re f 161.281 433.459 0.48 12 re f 222.241 433.459 0.48 12 re f 283.201 433.459 0.48 12 re f 344.161 433.459 0.48 12 re f 405.121 433.459 0.48 12 re f 466.081 433.459 0.48 12 re f 534.001 433.459 0.48 12 re f BT 10.8 0 0 10.8 104.401 423.379 Tm [(3.1)-6038.9(L45)-3722.5(Ø300)-3666.7(1,77)-3650(0,017)-4016.7(26)-4577.8(0,10)]TJ ET 60.481 432.979 474 0.48 re f 60.481 420.979 0.48 12 re f 161.281 420.979 0.48 12 re f 222.241 420.979 0.48 12 re f 283.201 420.979 0.48 12 re f 344.161 420.979 0.48 12 re f 405.121 420.979 0.48 12 re f 466.081 420.979 0.48 12 re f 534.001 420.979 0.48 12 re f BT 10.8 0 0 10.8 183.121 410.899 Tm [(L46)-3722.5(Ø300)-3666.7(3,53)-3650(0,017)-4016.7(15)-4577.8(0,14)]TJ ET 60.481 420.499 474 0.48 re f 60.481 408.499 0.48 12 re f 161.281 408.499 0.48 12 re f 222.241 408.499 0.48 12 re f 283.201 408.499 0.48 12 re f 344.161 408.499 0.48 12 re f 405.121 408.499 0.48 12 re f 466.081 408.499 0.48 12 re f 534.001 408.499 0.48 12 re f BT 10.8 0 0 10.8 104.401 404.899 Tm (3.2)Tj 7.2889 -0.6 TD [(L47)-3722.5(Ø500)-3666.7(0,00)-3650(0,017)-4261.1(5)-5566.7(/)]TJ ET 60.481 408.019 0.48 0.48 re f 161.281 408.019 373.2 0.48 re f 60.481 396.019 0.48 12 re f 161.281 396.019 0.48 12 re f 222.241 396.019 0.48 12 re f 283.201 396.019 0.48 12 re f 344.161 396.019 0.48 12 re f 405.121 396.019 0.48 12 re f 466.081 396.019 0.48 12 re f 534.001 396.019 0.48 12 re f BT 10.8 0 0 10.8 183.121 385.939 Tm [(L48)-3722.5(Ø500)-3666.7(0,77)-3650(0,017)-4016.7(52)-4577.8(0,25)]TJ ET 60.481 395.539 474 0.48 re f 60.481 383.539 0.48 12 re f 161.281 383.539 0.48 12 re f 222.241 383.539 0.48 12 re f 283.201 383.539 0.48 12 re f 344.161 383.539 0.48 12 re f 405.121 383.539 0.48 12 re f 466.081 383.539 0.48 12 re f 534.001 383.539 0.48 12 re f BT 10.8 0 0 10.8 108.481 379.939 Tm (3)Tj 6.9111 -0.6 TD [(L49)-3722.5(Ø300)-3666.7(2,56)-3650(0,017)-4261.1(9)-4833.3(0,12)]TJ ET 60.481 383.059 0.48 0.48 re f 161.281 383.059 373.2 0.48 re f 60.481 370.819 0.48 12.24 re f 161.281 370.819 0.48 12.24 re f 222.241 370.819 0.48 12.24 re f 283.201 370.819 0.48 12.24 re f 344.161 370.819 0.48 12.24 re f 405.121 370.819 0.48 12.24 re f 466.081 370.819 0.48 12.24 re f 534.001 370.819 0.48 12.24 re f BT 10.8 0 0 10.8 96.961 360.739 Tm [(1+2+3)-5349.8(L55)-3722.5(Ø800)-3666.7(2,10)-3650(0,017)-3750(153)-4344.4(1,47)]TJ ET 60.481 370.339 474 0.48 re f 60.481 358.339 0.48 12 re f 161.281 358.339 0.48 12 re f 222.241 358.339 0.48 12 re f 283.201 358.339 0.48 12 re f 344.161 358.339 0.48 12 re f 405.121 358.339 0.48 12 re f 466.081 358.339 0.48 12 re f 534.001 358.339 0.48 12 re f BT 10.8 0 0 10.8 87.121 348.259 Tm [(1+2+3+4.1)-4447(L56)-3722.5(Ø800)-3666.7(1,27)-3650(0,017)-4016.7(44)-4577.8(1,14)]TJ ET 60.481 357.859 474 0.48 re f 60.481 345.859 0.48 12 re f 161.281 345.859 0.48 12 re f 222.241 345.859 0.48 12 re f 283.201 345.859 0.48 12 re f 344.161 345.859 0.48 12 re f 405.121 345.859 0.48 12 re f 466.081 345.859 0.48 12 re f 534.001 345.859 0.48 12 re f BT 10.8 0 0 10.8 183.121 335.779 Tm [(L60)-3722.5(Ø400)-3666.7(2,44)-3650(0,017)-4016.7(64)-4577.8(0,25)]TJ ET 60.481 345.379 474 0.48 re f 60.481 333.379 0.48 12 re f 161.281 333.379 0.48 12 re f 222.241 333.379 0.48 12 re f 283.201 333.379 0.48 12 re f 344.161 333.379 0.48 12 re f 405.121 333.379 0.48 12 re f 466.081 333.379 0.48 12 re f 534.001 333.379 0.48 12 re f BT 10.8 0 0 10.8 183.121 323.299 Tm [(L61)-3722.5(Ø300)-3666.7(2,58)-3650(0,017)-4016.7(40)-4577.8(0,12)]TJ ET 60.481 332.899 0.48 0.48 re f 161.281 332.899 373.2 0.48 re f 60.481 320.899 0.48 12 re f 161.281 320.899 0.48 12 re f 222.241 320.899 0.48 12 re f 283.201 320.899 0.48 12 re f 344.161 320.899 0.48 12 re f 405.121 320.899 0.48 12 re f 466.081 320.899 0.48 12 re f 534.001 320.899 0.48 12 re f BT 10.8 0 0 10.8 183.121 310.8191 Tm [(L62)-3722.5(Ø300)-3666.7(1,20)-3650(0,017)-4016.7(10)-4577.8(0,08)]TJ ET 60.481 320.419 0.48 0.48 re f 161.281 320.419 373.2 0.48 re f 60.481 308.419 0.48 12 re f 161.281 308.419 0.48 12 re f 222.241 308.419 0.48 12 re f 283.201 308.419 0.48 12 re f 344.161 308.419 0.48 12 re f 405.121 308.419 0.48 12 re f 466.081 308.419 0.48 12 re f 534.001 308.419 0.48 12 re f BT 10.8 0 0 10.8 104.401 317.2991 Tm (4.2)Tj 7.2889 -1.7556 TD [(L63)-3700.3(Fossé)-3632.8(0,72)-3650(0,033)-4016.7(58)-4577.8(0,64)]TJ ET 60.481 307.939 0.48 0.48 re f 161.281 307.939 373.2 0.48 re f 60.481 295.939 0.48 12 re f 161.281 295.939 0.48 12 re f 222.241 295.939 0.48 12 re f 283.201 295.939 0.48 12 re f 344.161 295.939 0.48 12 re f 405.121 295.939 0.48 12 re f 466.081 295.939 0.48 12 re f 534.001 295.939 0.48 12 re f BT 10.8 0 0 10.8 77.281 285.8591 Tm [(1+2+3+4.1+4.2)-3544.1(L65)-3700.3(Fossé)-3632.8(0,88)-3650(0,033)-4016.7(52)-4577.8(1,24)]TJ ET 60.481 295.459 474 0.48 re f 60.481 283.459 0.48 12 re f 161.281 283.459 0.48 12 re f 222.241 283.459 0.48 12 re f 283.201 283.459 0.48 12 re f 344.161 283.459 0.48 12 re f 405.121 283.459 0.48 12 re f 466.081 283.459 0.48 12 re f 534.001 283.459 0.48 12 re f BT 10.8 0 0 10.8 183.121 273.3791 Tm [(L66)-3722.5(Ø800)-3666.7(1,29)-3650(0,017)-4261.1(7)-4833.3(1,15)]TJ ET 60.481 282.979 474 0.48 re f 60.481 270.979 0.48 12 re f 161.281 270.979 0.48 12 re f 222.241 270.979 0.48 12 re f 283.201 270.979 0.48 12 re f 344.161 270.979 0.48 12 re f 405.121 270.979 0.48 12 re f 466.081 270.979 0.48 12 re f 534.001 270.979 0.48 12 re f BT 10.8 0 0 10.8 183.121 260.899 Tm [(L67)-3700.3(Fossé)-3632.8(0,58)-3650(0,033)-3750(130)-4344.4(1,51)]TJ ET 60.481 270.499 0.48 0.48 re f 161.281 270.499 373.2 0.48 re f 60.481 258.499 0.48 12 re f 161.281 258.499 0.48 12 re f 222.241 258.499 0.48 12 re f 283.201 258.499 0.48 12 re f 344.161 258.499 0.48 12 re f 405.121 258.499 0.48 12 re f 466.081 258.499 0.48 12 re f 534.001 258.499 0.48 12 re f BT 10.8 0 0 10.8 91.201 261.139 Tm (1+2+3+4)Tj 8.5111 -1.1778 TD [(L68)-3722.5(Ø800)-3666.7(0,58)-3650(0,017)-4016.7(24)-4577.8(0,77)]TJ ET 60.481 258.019 0.48 0.48 re f 161.281 258.019 373.2 0.48 re f 60.481 245.539 0.48 12.48 re f 60.961 245.539 100.32 0.48 re f 161.281 245.539 0.48 12.48 re f 161.761 245.539 60.48 0.48 re f 222.241 245.539 0.48 12.48 re f 222.721 245.539 60.48 0.48 re f 283.201 245.539 0.48 12.48 re f 283.681 245.539 60.48 0.48 re f 344.161 245.539 0.48 12.48 re f 344.641 245.539 60.48 0.48 re f 405.121 245.539 0.48 12.48 re f 405.601 245.539 60.48 0.48 re f 466.081 245.539 0.48 12.48 re f 466.561 245.539 67.44 0.48 re f 534.001 245.539 0.48 12.48 re f endstream endobj 31 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 33 0 obj << /Length 11322 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 498.481 80.6591 Tm 0.01 Tw (p. 9)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 749.539 Tm 0.0134 Tc 0.1339 Tw (Le versant D du Gué au Voyer ne sera pas modélisé par le logiciel XP-SWMM. La)Tj -2.94 -1 TD 0.0065 Tc 0.0653 Tw (surface du versant étant relativement faible, les calculs seront effectués manuellement pour les)Tj T* 0 Tc 0.0002 Tw (deux traversées de la R.D. 37 \(Ø300 et Ø400\).)Tj 2.94 -2 TD 0.0001 Tw (On obtient les résultats suivants :)Tj ET 0.851 g 385.201 674.659 141.36 12 re f 388.321 674.659 134.88 12 re f BT /TT4 1 Tf 12 0 0 12 416.881 677.059 Tm 0 g 0 Tw (Capacité \(m3/s\))Tj ET 58.561 686.659 468.48 0.48 re f 58.561 674.659 0.48 12 re f 123.841 674.659 0.48 12 re f 189.121 674.659 0.48 12 re f 254.161 674.659 0.48 12 re f 319.441 674.659 0.48 12 re f 384.721 674.659 0.48 12 re f 526.561 674.659 0.48 12 re f 0.851 g 59.041 650.179 64.8 36.48 re f BT 12 0 0 12 72.001 665.059 Tm 0 g (Versant)Tj ET 0.851 g 124.321 650.179 64.8 36.48 re f BT 12 0 0 12 133.681 671.059 Tm 0 g (Diamètre)Tj ET 0.851 g 127.681 656.659 58.32 12 re f BT 12 0 0 12 143.281 659.059 Tm 0 g (\(mm\))Tj ET 0.851 g 189.601 650.179 64.56 36.48 re f BT 12 0 0 12 207.601 671.059 Tm 0 g (Pente)Tj ET 0.851 g 192.721 656.659 58.32 12 re f BT 12 0 0 12 216.721 659.059 Tm 0 g (%)Tj ET 0.851 g 254.641 650.179 64.8 36.48 re f BT 12 0 0 12 265.201 665.059 Tm 0 g (Rugosité)Tj ET 0.851 g 319.921 650.179 64.8 36.48 re f BT 12 0 0 12 327.601 671.059 Tm 0 g 0.0001 Tc (Longueur)Tj ET 0.851 g 323.281 656.659 58.32 12 re f BT 12 0 0 12 343.681 659.059 Tm 0 g 0 Tc (\(m\))Tj ET 0.851 g 385.201 649.939 70.32 24 re f 388.321 662.179 64.08 12 re f BT 12 0 0 12 390.481 664.579 Tm 0 g (Ecoulement)Tj ET 0.851 g 388.321 650.179 64.08 12 re f BT 12 0 0 12 408.961 652.579 Tm 0 g (libre)Tj ET 0.851 g 456.001 649.939 70.56 24 re f 459.361 662.179 64.08 12 re f BT 12 0 0 12 471.601 664.579 Tm 0 g (Mise en)Tj ET 0.851 g 459.361 650.179 64.08 12 re f BT 12 0 0 12 474.241 652.579 Tm 0 g (charge)Tj ET 58.561 674.179 0.48 0.48 re f 123.841 674.179 0.48 0.48 re f 189.121 674.179 0.48 0.48 re f 254.161 674.179 0.48 0.48 re f 319.441 674.179 0.48 0.48 re f 384.721 674.179 142.32 0.48 re f 58.561 649.939 0.48 24.24 re f 123.841 649.939 0.48 24.24 re f 189.121 649.939 0.48 24.24 re f 254.161 649.939 0.48 24.24 re f 319.441 649.939 0.48 24.24 re f 384.721 649.939 0.48 24.24 re f 455.521 649.939 0.48 24.24 re f 526.561 649.939 0.48 24.24 re f BT /TT6 1 Tf 10.8 0 0 10.8 144.721 639.859 Tm [(Ø300)-4022.3(1,17)-4050(0,017)-4416.7(24)-4911.1(0,08)-4827.8(0,10)]TJ ET 58.561 649.459 468.48 0.48 re f 58.561 637.459 0.48 12 re f 123.841 637.459 0.48 12 re f 189.121 637.459 0.48 12 re f 254.161 637.459 0.48 12 re f 319.441 637.459 0.48 12 re f 384.721 637.459 0.48 12 re f 455.521 637.459 0.48 12 re f 526.561 637.459 0.48 12 re f BT 10.8 0 0 10.8 87.601 633.859 Tm (D)Tj 5.2889 -0.6 TD [(Ø400)-4022.3(0,90)-4050(0,017)-4416.7(29)-4911.1(0,15)-4827.8(0,35)]TJ ET 58.561 636.979 0.48 0.48 re f 123.841 636.979 403.2 0.48 re f 58.561 624.499 0.48 12.48 re f 59.041 624.499 64.8 0.48 re f 123.841 624.499 0.48 12.48 re f 124.321 624.499 64.8 0.48 re f 189.121 624.499 0.48 12.48 re f 189.601 624.499 64.56 0.48 re f 254.161 624.499 0.48 12.48 re f 254.641 624.499 64.8 0.48 re f 319.441 624.499 0.48 12.48 re f 319.921 624.499 64.8 0.48 re f 384.721 624.499 0.48 12.48 re f 385.201 624.499 70.32 0.48 re f 455.521 624.499 0.48 12.48 re f 456.001 624.499 70.56 0.48 re f 526.561 624.499 0.48 12.48 re f BT 12 0 0 12 97.681 602.899 Tm 0.005 Tc 0.0505 Tw (Comme précédemment, les capacités en écoulement libre sont calculées avec la formule)Tj -2.94 -1 TD 0 Tc 0.0001 Tw [(de )-6.1(Manning-Strickler. Les capacités avec mise en charge sont prises en limite de débordement sur)]TJ T* 0 Tw (voirie.)Tj ET 0.898 0.949 1 rg 60.961 527.539 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 531.139 Tm 0 g (3 – C)Tj 10.8 0 0 10.8 135.121 531.139 Tm 0.0004 Tw (ALCUL DES DEBITS DE POINTES)Tj ET 60.961 527.059 473.04 0.48 re f BT /TT8 1 Tf 12 0 0 12 133.201 490.579 Tm (3.1 – Par sous-bassin)Tj ET 131.761 486.739 402.24 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 462.019 Tm 0.0119 Tc 0.1396 Tw [(Par la méthode SCS \(Soil )24.5(Conservation )24.5(Service\) )24.5(du )24.5(logiciel )36.7(XP-SWMM, )33.5(nous )33.5(avons)]TJ -2.94 -1 TD 0 Tc 0.0002 Tw (calculé les débits de pointe théoriques pour chaque sous-bassin afin de les injecter dans le réseau.)Tj 2.96 -2 TD 0.0036 Tc 0.0363 Tw (Nous avons retenu plusieurs pluies décennales de durées différentes \(10 à 75 min\). Cette)Tj -2.96 -1 TD 0.0065 Tc 0.0646 Tw (distinction a été faite pour tenir compte de tout le réseau. En effet, plus la pluie considérée est)Tj T* 0.0124 Tc 0.1238 Tw (courte plus elle sera proche des temps de concentration des petits versants et les risques de)Tj T* 0.0001 Tc 0.0014 Tw (saturation sensibles en amont. Pour les pluies plus longues, les réseaux testés seront en aval. Dans)Tj T* -0.0001 Tc 0 Tw (tous les cas, il a été retenu une pluie de 240 min d’une période de retour 5 ans avec, à 120 min, un)Tj T* 0 Tc 0.0001 Tw (pic décennal correspondant à la pluie considérée.)Tj 2.96 -2 TD 0.0003 Tc 0.003 Tw (Le tableau suivant présente les résultats de trois pluies, les autres sont annexés. Le schéma)Tj -2.96 -1 TD 0 Tc 0.0001 Tw (de principe pour la modélisation des pluies de projet est également en annexe.)Tj ET 0.851 g 218.641 291.139 246.48 24 re f BT /TT4 1 Tf 12 0 0 12 223.441 305.5391 Tm 0 g 0.0005 Tw (Débits théoriques décennaux \(m3/s\) en fonction)Tj ET 0.851 g 220.081 291.139 244.08 12 re f BT 12 0 0 12 293.521 293.5391 Tm 0 g 0 Tw (de la durée de pluie)Tj ET 218.161 315.139 247.44 0.48 re f 218.161 291.139 0.48 24 re f 465.121 291.139 0.48 24 re f 0.851 g 129.601 278.659 88.56 12 re f 130.801 278.659 86.16 12 re f BT 12 0 0 12 148.801 281.0591 Tm 0 g (Versant C)Tj ET 0.851 g 218.641 278.659 82.8 12 re f 219.841 278.659 80.4 12 re f BT 10.8 0 0 10.8 244.561 281.0591 Tm 0 g (15 min)Tj ET 0.851 g 301.921 278.659 81.36 12 re f 303.121 278.659 78.96 12 re f BT 10.8 0 0 10.8 326.881 281.0591 Tm 0 g (30 min)Tj ET 0.851 g 383.761 278.659 81.6 12 re f 384.961 278.659 79.2 12 re f BT 10.8 0 0 10.8 408.961 281.0591 Tm 0 g (45 min)Tj ET 129.121 290.659 336.48 0.48 re f 129.121 278.659 0.48 12 re f 218.161 278.659 0.48 12 re f 301.441 278.659 0.48 12 re f 383.281 278.659 0.48 12 re f 465.361 278.659 0.48 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 268.3391 Tm [(1.1)-6483.3(0,44)-5872.2(0,51)]TJ ET 0.753 g 414.961 265.939 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 414.961 268.3391 Tm 0 g (0,54)Tj ET 128.881 277.939 336.96 0.72 re f 128.881 265.699 0.72 12.24 re f 217.921 265.699 0.72 12.24 re f 301.201 265.699 0.72 12.24 re f 383.041 265.699 0.72 12.24 re f 465.121 265.699 0.72 12.24 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 255.3791 Tm [(1.2)-6483.3(0,30)-5872.2(0,34)]TJ ET 0.753 g 414.961 252.979 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 414.961 255.3791 Tm 0 g (0,34)Tj ET 128.881 264.979 336.96 0.72 re f 128.881 252.979 0.72 12 re f 217.921 252.979 0.72 12 re f 301.201 252.979 0.72 12 re f 383.041 252.979 0.72 12 re f 465.121 252.979 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 242.6591 Tm [(1.3)-6483.3(0,43)-5872.2(0,49)]TJ ET 0.753 g 414.961 240.259 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 414.961 242.6591 Tm 0 g (0,50)Tj ET 128.881 252.259 336.96 0.72 re f 128.881 240.259 0.72 12 re f 217.921 240.259 0.72 12 re f 301.201 240.259 0.72 12 re f 383.041 240.259 0.72 12 re f 465.121 240.259 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 229.9391 Tm [(1.4)-6483.3(0,60)-5872.2(0,68)]TJ ET 0.753 g 414.961 227.539 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 414.961 229.9391 Tm 0 g (0,70)Tj ET 128.881 239.539 336.96 0.72 re f 128.881 227.539 0.72 12 re f 217.921 227.539 0.72 12 re f 301.201 227.539 0.72 12 re f 383.041 227.539 0.72 12 re f 465.121 227.539 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 217.2191 Tm [(2.1)-6483.3(0,47)-5872.2(0,53)]TJ ET 0.753 g 414.961 214.819 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 414.961 217.2191 Tm 0 g (0,55)Tj ET 128.881 226.819 336.96 0.72 re f 128.881 214.819 0.72 12 re f 217.921 214.819 0.72 12 re f 301.201 214.819 0.72 12 re f 383.041 214.819 0.72 12 re f 465.121 214.819 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 204.4991 Tm (2.2)Tj ET 0.753 g 250.561 202.099 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 250.561 204.4991 Tm 0 g (0,60)Tj /TT6 1 Tf 7.6222 0 TD [(0,59)-5850(0,50)]TJ ET 128.881 214.099 336.96 0.72 re f 128.881 202.099 0.72 12 re f 217.921 202.099 0.72 12 re f 301.201 202.099 0.72 12 re f 383.041 202.099 0.72 12 re f 465.121 202.099 0.72 12 re f BT 10.8 0 0 10.8 167.041 191.7791 Tm (2.3)Tj ET 0.753 g 250.561 189.379 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 250.561 191.7791 Tm 0 g (0,48)Tj /TT6 1 Tf 7.6222 0 TD [(0,43)-5850(0,38)]TJ ET 128.881 201.379 336.96 0.72 re f 128.881 189.379 0.72 12 re f 217.921 189.379 0.72 12 re f 301.201 189.379 0.72 12 re f 383.041 189.379 0.72 12 re f 465.121 189.379 0.72 12 re f BT 10.8 0 0 10.8 167.041 179.0591 Tm [(3.1)-6483.3(0,59)]TJ ET 0.753 g 332.881 176.659 18.96 12 re f BT 10.8 0 0 10.8 332.881 179.0591 Tm 0 g (0,68)Tj /TT10 1 Tf 7.6 0 TD (0,65)Tj ET 128.881 188.659 336.96 0.72 re f 128.881 176.659 0.72 12 re f 217.921 176.659 0.72 12 re f 301.201 176.659 0.72 12 re f 383.041 176.659 0.72 12 re f 465.121 176.659 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 167.041 166.3391 Tm (3.2)Tj ET 0.753 g 250.561 163.939 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 250.561 166.3391 Tm 0 g (0,56)Tj /TT6 1 Tf 7.6222 0 TD [(0,53)-5850(0,49)]TJ ET 128.881 175.939 336.96 0.72 re f 128.881 163.699 0.72 12.24 re f 217.921 163.699 0.72 12.24 re f 301.201 163.699 0.72 12.24 re f 383.041 163.699 0.72 12.24 re f 465.121 163.699 0.72 12.24 re f BT 10.8 0 0 10.8 167.041 153.3791 Tm (4.1)Tj ET 0.753 g 250.561 150.979 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 250.561 153.3791 Tm 0 g (0,50)Tj /TT6 1 Tf 7.6222 0 TD [(0,44)-5850(0,40)]TJ ET 128.881 162.979 336.96 0.72 re f 128.881 150.979 0.72 12 re f 217.921 150.979 0.72 12 re f 301.201 150.979 0.72 12 re f 383.041 150.979 0.72 12 re f 465.121 150.979 0.72 12 re f BT 10.8 0 0 10.8 167.041 140.6591 Tm (4.2)Tj ET 0.753 g 250.561 138.259 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 250.561 140.6591 Tm 0 g (0,50)Tj /TT6 1 Tf 7.6222 0 TD [(0,43)-5850(0,39)]TJ ET 128.881 150.259 336.96 0.72 re f 128.881 138.259 0.72 12 re f 217.921 138.259 0.72 12 re f 301.201 138.259 0.72 12 re f 383.041 138.259 0.72 12 re f 465.121 138.259 0.72 12 re f BT 10.8 0 0 10.8 167.041 127.9391 Tm [(4.3)-6483.3(0,40)-5872.2(0,46)]TJ ET 0.753 g 414.961 125.539 18.96 12 re f BT /TT10 1 Tf 10.8 0 0 10.8 414.961 127.9391 Tm 0 g (0,47)Tj ET 128.881 137.539 336.96 0.72 re f 128.881 124.819 0.72 12.72 re f 129.601 124.819 88.32 0.72 re f 217.921 124.819 0.72 12.72 re f 218.641 124.819 82.56 0.72 re f 301.201 124.819 0.72 12.72 re f 301.921 124.819 81.12 0.72 re f 383.041 124.819 0.72 12.72 re f 383.761 124.819 81.36 0.72 re f 465.121 124.819 0.72 12.72 re f endstream endobj 34 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R /TT10 13 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 36 0 obj << /Length 18008 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 10)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 749.539 Tm 0.006 Tc 0.0599 Tw (Le débit du versant D n’ayant pas été modélisé, il a été calculé pour une durée de pluie)Tj -2.94 -1 TD 0 Tc 0.0001 Tw (égale à son temps de concentration \(11 min\). On obtient un débit de pointe de 0,85 m3/s.)Tj /TT8 1 Tf 5.9 -3.98 TD 0.0005 Tw (3.2 – Assemblage des bassins)Tj ET 131.761 685.699 402.24 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 660.979 Tm 0.0261 Tc 0.2608 Tw (Le logiciel XP-SWMM permet d’effectuer l’assemblage des sous-versants et de)Tj -2.94 -1 TD 0.0118 Tc 0.1179 Tw (déterminer la transmission des débits de l’amont vers l’aval en intégrant les déphasages des)Tj T* 0.0025 Tc 0.0251 Tw (pointes de débits. Différents nœuds et tronçons vont nous intéresser, correspondant aux zones de)Tj T* 0 Tc 0.0004 Tw (saturations actuelles.)Tj 2.96 -2 TD 0.0173 Tc 0.1733 Tw (Dans ces simulations, nous avons considéré les réseaux comme non réducteurs, de)Tj -2.96 -1 TD 0 Tc 0.0001 Tw (manière à obtenir des débits de pointe théoriques.)Tj 2.94 -2 TD 0.0093 Tc 0.0926 Tw (Ces simulations sont également annexées, ainsi que celles des débits de pointe actuels)Tj -2.94 -1 TD 0 Tc 0.0002 Tw (avec le profil des tronçons.)Tj ET 0.851 g 282.721 526.099 237.36 12 re f 283.921 526.099 234.96 12 re f BT /TT4 1 Tf 12 0 0 12 299.281 528.499 Tm 0 g 0.0003 Tw (Débits de pointe théoriques 10 ans \(m3/s\))Tj ET 282.241 538.099 238.32 0.48 re f 282.241 526.099 0.48 12 re f 520.081 526.099 0.48 12 re f 0.851 g 74.881 513.379 72.24 12 re f 76.321 513.379 70.08 12 re f BT 12 0 0 12 96.241 515.7791 Tm 0 g 0 Tw (Nœud)Tj ET 0.851 g 147.841 513.379 72.24 12 re f 149.281 513.379 70.08 12 re f BT 12 0 0 12 159.361 515.7791 Tm 0 g (Versant C)Tj ET 0.851 g 220.801 513.379 61.44 12 re f 222.241 513.379 58.8 12 re f BT 12 0 0 12 230.161 515.7791 Tm 0 g (Tronçon)Tj ET 0.851 g 282.721 513.379 58.8 12 re f 283.921 513.379 56.64 12 re f BT 12 0 0 12 294.961 515.7791 Tm 0 g (15 min)Tj ET 0.851 g 342.001 513.379 59.04 12 re f 343.441 513.379 56.64 12 re f BT 12 0 0 12 354.481 515.7791 Tm 0 g (45 min)Tj ET 0.851 g 401.521 513.379 59.04 12 re f 402.721 513.379 56.64 12 re f BT 12 0 0 12 413.761 515.7791 Tm 0 g (60 min)Tj ET 0.851 g 461.041 513.379 59.04 12 re f 462.241 513.379 56.64 12 re f BT 12 0 0 12 473.281 515.7791 Tm 0 g (75 min)Tj ET 74.161 525.379 208.56 0.72 re f 282.721 525.619 58.8 0.48 re f 0.851 g 282.721 525.379 58.8 0.24 re f 0 g 341.521 525.379 0.48 0.72 re f 342.001 525.619 59.04 0.48 re f 0.851 g 342.001 525.379 59.04 0.24 re f 0 g 401.041 525.379 0.48 0.72 re f 401.521 525.619 59.04 0.48 re f 0.851 g 401.521 525.379 59.04 0.24 re f 0 g 460.561 525.379 0.48 0.72 re f 461.041 525.619 59.04 0.48 re f 0.851 g 461.041 525.379 59.04 0.24 re f 0 g 520.081 525.379 0.48 0.72 re f 74.161 513.379 0.72 12 re f 147.121 513.379 0.72 12 re f 220.081 513.379 0.72 12 re f 282.241 513.379 0.48 12 re f 341.521 513.379 0.48 12 re f 401.041 513.379 0.48 12 re f 460.561 513.379 0.48 12 re f 520.081 513.379 0.48 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 91.921 503.299 Tm [(BVC 1.1)-10666.1(L1)-4178.1(0,44)-3761.1(0,54)]TJ ET 0.753 g 421.441 500.899 18.96 12 re f BT 10.8 0 0 10.8 421.441 503.299 Tm 0 g [(0,54)-3761.1(0,53)]TJ ET 74.161 512.899 446.4 0.48 re f 74.401 500.899 0.48 12 re f 147.361 500.899 0.48 12 re f 220.321 500.899 0.48 12 re f 282.241 500.899 0.48 12 re f 341.521 500.899 0.48 12 re f 401.041 500.899 0.48 12 re f 460.561 500.899 0.48 12 re f 520.081 500.899 0.48 12 re f BT 10.8 0 0 10.8 104.641 490.819 Tm [(N2)-11822.3(L2)-4178.1(0,44)-3761.1(0,54)]TJ ET 0.753 g 421.441 488.419 18.96 12 re f BT 10.8 0 0 10.8 421.441 490.819 Tm 0 g [(0,54)-3761.1(0,53)]TJ ET 74.401 500.419 73.44 0.48 re f 220.321 500.419 300.24 0.48 re f 74.401 488.179 0.48 12.24 re f 147.361 488.179 0.48 12.24 re f 220.321 488.179 0.48 12.24 re f 282.241 488.179 0.48 12.24 re f 341.521 488.179 0.48 12.24 re f 401.041 488.179 0.48 12.24 re f 460.561 488.179 0.48 12.24 re f 520.081 488.179 0.48 12.24 re f BT 10.8 0 0 10.8 104.641 478.099 Tm (N3)Tj 6.7333 1.2 TD (1.1)Tj 6.3111 -1.2 TD [(L3)-4178.1(0,44)-3761.1(0,54)]TJ ET 0.753 g 421.441 475.699 18.96 12 re f BT 10.8 0 0 10.8 421.441 478.099 Tm 0 g [(0,54)-3761.1(0,53)]TJ ET 74.401 487.699 73.44 0.48 re f 220.321 487.699 300.24 0.48 re f 74.401 475.699 0.48 12 re f 147.361 475.699 0.48 12 re f 220.321 475.699 0.48 12 re f 282.241 475.699 0.48 12 re f 341.521 475.699 0.48 12 re f 401.041 475.699 0.48 12 re f 460.561 475.699 0.48 12 re f 520.081 475.699 0.48 12 re f BT 10.8 0 0 10.8 91.921 465.619 Tm [(BVC 1.2)-10666.1(L4)-4178.1(0,30)]TJ ET 0.753 g 362.161 463.219 18.96 12 re f BT 10.8 0 0 10.8 362.161 465.619 Tm 0 g [(0,34)-3738.9(0,33)-3761.1(0,32)]TJ ET 74.401 475.219 446.16 0.48 re f 74.401 463.219 0.48 12 re f 147.361 463.219 0.48 12 re f 220.321 463.219 0.48 12 re f 282.241 463.219 0.48 12 re f 341.521 463.219 0.48 12 re f 401.041 463.219 0.48 12 re f 460.561 463.219 0.48 12 re f 520.081 463.219 0.48 12 re f BT 10.8 0 0 10.8 104.641 453.139 Tm [(N5)-11822.3(L5)-4178.1(0,30)]TJ ET 0.753 g 362.161 450.739 18.96 12 re f BT 10.8 0 0 10.8 362.161 453.139 Tm 0 g [(0,34)-3738.9(0,33)-3761.1(0,32)]TJ ET 74.401 462.739 73.44 0.48 re f 220.321 462.739 300.24 0.48 re f 74.401 450.739 0.48 12 re f 147.361 450.739 0.48 12 re f 220.321 450.739 0.48 12 re f 282.241 450.739 0.48 12 re f 341.521 450.739 0.48 12 re f 401.041 450.739 0.48 12 re f 460.561 450.739 0.48 12 re f 520.081 450.739 0.48 12 re f BT 10.8 0 0 10.8 104.641 440.659 Tm (N6)Tj 6.7333 1.1778 TD (1.2)Tj 6.3111 -1.1778 TD [(L6)-4178.1(0,32)]TJ ET 0.753 g 362.161 438.259 18.96 12 re f BT 10.8 0 0 10.8 362.161 440.659 Tm 0 g [(0,34)-3738.9(0,33)-3761.1(0,32)]TJ ET 74.401 450.259 73.44 0.48 re f 220.321 450.259 300.24 0.48 re f 74.401 438.259 0.48 12 re f 147.361 438.259 0.48 12 re f 220.321 438.259 0.48 12 re f 282.241 438.259 0.48 12 re f 341.521 438.259 0.48 12 re f 401.041 438.259 0.48 12 re f 460.561 438.259 0.48 12 re f 520.081 438.259 0.48 12 re f BT 10.8 0 0 10.8 91.921 428.179 Tm [(BVC 1.3)-10666.1(L8)-4178.1(0,43)]TJ ET 0.753 g 362.161 425.779 18.96 12 re f BT 10.8 0 0 10.8 362.161 428.179 Tm 0 g [(0,50)-3738.9(0,49)-3761.1(0,47)]TJ ET 74.401 437.779 446.16 0.48 re f 74.401 425.779 0.48 12 re f 147.361 425.779 0.48 12 re f 220.321 425.779 0.48 12 re f 282.241 425.779 0.48 12 re f 341.521 425.779 0.48 12 re f 401.041 425.779 0.48 12 re f 460.561 425.779 0.48 12 re f 520.081 425.779 0.48 12 re f BT 10.8 0 0 10.8 104.641 415.699 Tm (N9)Tj 6.7333 0.6 TD (1.3)Tj 6.3111 -0.6 TD [(L9)-4178.1(0,44)]TJ ET 0.753 g 362.161 413.299 18.96 12 re f BT 10.8 0 0 10.8 362.161 415.699 Tm 0 g [(0,51)-3738.9(0,49)-3761.1(0,48)]TJ ET 74.401 425.299 73.44 0.48 re f 220.321 425.299 300.24 0.48 re f 74.401 413.299 0.48 12 re f 147.361 413.299 0.48 12 re f 220.321 413.299 0.48 12 re f 282.241 413.299 0.48 12 re f 341.521 413.299 0.48 12 re f 401.041 413.299 0.48 12 re f 460.561 413.299 0.48 12 re f 520.081 413.299 0.48 12 re f BT 10.8 0 0 10.8 102.001 403.219 Tm [(N15)-3433.4(1.1+1.2+1.3)-3011(L15)-3922.5(1,09)]TJ ET 0.753 g 362.161 400.819 18.96 12 re f BT 10.8 0 0 10.8 362.161 403.219 Tm 0 g [(1,31)-3738.9(1,31)-3761.1(1,28)]TJ ET 74.401 412.819 446.16 0.48 re f 74.401 400.819 0.48 12 re f 147.361 400.819 0.48 12 re f 220.321 400.819 0.48 12 re f 282.241 400.819 0.48 12 re f 341.521 400.819 0.48 12 re f 401.041 400.819 0.48 12 re f 460.561 400.819 0.48 12 re f 520.081 400.819 0.48 12 re f BT 10.8 0 0 10.8 78.481 390.739 Tm [(BVC 1.4&N20)-9166.1(L20)-3922.5(1,61)-3761.1(1,94)]TJ ET 0.753 g 421.441 388.339 18.96 12 re f BT 10.8 0 0 10.8 421.441 390.739 Tm 0 g [(1,94)-3761.1(1,91)]TJ ET 74.401 400.339 446.16 0.48 re f 74.401 388.339 0.48 12 re f 147.361 388.339 0.48 12 re f 220.321 388.339 0.48 12 re f 282.241 388.339 0.48 12 re f 341.521 388.339 0.48 12 re f 401.041 388.339 0.48 12 re f 460.561 388.339 0.48 12 re f 520.081 388.339 0.48 12 re f BT 10.8 0 0 10.8 102.001 378.259 Tm (N21)Tj 7.3556 0.6 TD (1)Tj 5.6889 -0.6 TD [(L21)-3922.5(1,62)]TJ ET 0.753 g 362.161 375.859 18.96 12 re f BT 10.8 0 0 10.8 362.161 378.259 Tm 0 g [(1,94)-3738.9(1,94)-3761.1(1,91)]TJ ET 74.401 387.859 73.44 0.48 re f 220.321 387.859 300.24 0.48 re f 74.401 375.859 0.48 12 re f 147.361 375.859 0.48 12 re f 220.321 375.859 0.48 12 re f 282.241 375.859 0.48 12 re f 341.521 375.859 0.48 12 re f 401.041 375.859 0.48 12 re f 460.561 375.859 0.48 12 re f 520.081 375.859 0.48 12 re f BT 10.8 0 0 10.8 91.921 365.779 Tm [(BVC 2.1)-10199.4(L22a)-3700.9(0,23)]TJ ET 0.753 g 362.161 363.379 18.96 12 re f BT 10.8 0 0 10.8 362.161 365.779 Tm 0 g [(0,27)-3738.9(0,27)-3761.1(0,26)]TJ ET 74.401 375.379 446.16 0.48 re f 74.401 363.379 0.48 12 re f 147.361 363.379 0.48 12 re f 220.321 363.379 0.48 12 re f 282.241 363.379 0.48 12 re f 341.521 363.379 0.48 12 re f 401.041 363.379 0.48 12 re f 460.561 363.379 0.48 12 re f 520.081 363.379 0.48 12 re f BT 10.8 0 0 10.8 91.921 353.299 Tm (BVC 2.1)Tj 7.9111 0.6 TD (2.1)Tj 5.8222 -0.6 TD [(L22b)-3666.9(0,23)]TJ ET 0.753 g 362.161 350.899 18.96 12 re f BT 10.8 0 0 10.8 362.161 353.299 Tm 0 g [(0,27)-3738.9(0,27)-3761.1(0,26)]TJ ET 74.401 362.899 73.44 0.48 re f 220.321 362.899 300.24 0.48 re f 74.401 350.899 0.48 12 re f 147.361 350.899 0.48 12 re f 220.321 350.899 0.48 12 re f 282.241 350.899 0.48 12 re f 341.521 350.899 0.48 12 re f 401.041 350.899 0.48 12 re f 460.561 350.899 0.48 12 re f 520.081 350.899 0.48 12 re f BT 10.8 0 0 10.8 102.001 340.819 Tm [(N23)-11322.3(L23)-3922.5(2,02)-3761.1(2,42)]TJ ET 0.753 g 421.441 338.419 18.96 12 re f BT 10.8 0 0 10.8 421.441 340.819 Tm 0 g [(2,43)-3761.1(2,40)]TJ ET 74.401 350.419 446.16 0.48 re f 74.401 338.179 0.48 12.24 re f 147.361 338.179 0.48 12.24 re f 220.321 338.179 0.48 12.24 re f 282.241 338.179 0.48 12.24 re f 341.521 338.179 0.48 12.24 re f 401.041 338.179 0.48 12.24 re f 460.561 338.179 0.48 12.24 re f 520.081 338.179 0.48 12.24 re f BT 10.8 0 0 10.8 102.001 328.099 Tm (N24)Tj 6.4444 0.6222 TD (1+2.1)Tj 6.6 -0.6222 TD [(L24)-3922.5(2,01)-3761.1(2,42)]TJ ET 0.753 g 421.441 325.699 18.96 12 re f BT 10.8 0 0 10.8 421.441 328.099 Tm 0 g [(2,42)-3761.1(2,39)]TJ ET 74.401 337.699 73.44 0.48 re f 220.321 337.699 300.24 0.48 re f 74.401 325.699 0.48 12 re f 147.361 325.699 0.48 12 re f 220.321 325.699 0.48 12 re f 282.241 325.699 0.48 12 re f 341.521 325.699 0.48 12 re f 401.041 325.699 0.48 12 re f 460.561 325.699 0.48 12 re f 520.081 325.699 0.48 12 re f BT 10.8 0 0 10.8 78.481 315.619 Tm [(BVC 2.2&N25)-9166.1(L25)-3922.5(2,19)-3761.1(2,65)]TJ ET 0.753 g 421.441 313.219 18.96 12 re f BT 10.8 0 0 10.8 421.441 315.619 Tm 0 g [(2,69)-3761.1(2,68)]TJ ET 74.401 325.219 446.16 0.48 re f 74.401 313.219 0.48 12 re f 147.361 313.219 0.48 12 re f 220.321 313.219 0.48 12 re 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Ce point est important car il indique le sens d’écoulement. Certains nœuds sont associés)Tj T* 0.0071 Tc 0.0706 Tw [(à des nœuds dits « )70.6(bassins versants )70.6(» car les réseaux les reliant sont fictifs. Ces réseaux fictifs)]TJ T* 0 Tc 0.0002 Tw (sont utilisés pour obtenir une étude plus claire et plus sûre.)Tj 2.94 -2 TD 0.0041 Tc 0.0412 Tw (Globalement la pluie la plus défavorable est celle d’une heure, à l’exception des têtes de)Tj -2.94 -1 TD 0 Tc 0.0003 Tw (petits bassins plus sensibles aux pluies courtes.)Tj 2.94 -2 TD 0.0002 Tc 0.002 Tw (En ce qui concerne le versant D, le débit de pointe théorique est égal à celui du seul bassin)Tj -2.94 -1 TD 0 Tc 0.0002 Tw (versant, c’est-à-dire 0,85 m3/s. Ce débit devra être évacué par les deux exutoires interconnectés.)Tj ET endstream endobj 40 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT6 6 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 44 0 obj << /Length 453 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 12)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 10.8 0 0 10.8 62.401 737.539 Tm 0 Tw (CARTO A0 E.I)Tj ET endstream endobj 45 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT6 6 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 47 0 obj << /Length 1846 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 13)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 57.121 660.499 480.72 13.2 re f 0 g 55.681 673.699 0.48 1.44 re f 55.681 674.659 1.44 0.48 re f 56.641 673.699 0.48 0.48 re f 57.121 674.659 480.72 0.48 re f 57.121 673.699 480.72 0.48 re f 538.801 673.699 0.48 1.44 re f 537.841 674.659 1.44 0.48 re f 537.841 673.699 0.48 0.48 re f 55.681 660.499 0.48 13.2 re f 56.641 660.499 0.48 13.2 re f 538.801 660.499 0.48 13.2 re f 537.841 660.499 0.48 13.2 re f 0.898 0.949 1 rg 57.121 648.499 480.72 12 re f BT /TT4 1 Tf 15.84 0 0 15.84 149.761 650.899 Tm 0 g 0 Tw (B – R)Tj 12.96 0 0 12.96 186.7313 650.899 Tm 0.0001 Tc 0.0005 Tw (ECHERCHE DES DYSFONCTIONNEMENTS)Tj ET 55.681 648.499 0.48 12 re f 56.641 648.499 0.48 12 re f 538.801 648.499 0.48 12 re f 537.841 648.499 0.48 12 re f 0.898 0.949 1 rg 57.121 635.539 480.72 12.96 re f 0 g 55.681 634.099 0.48 1.44 re f 55.681 634.099 1.44 0.48 re f 56.641 635.059 0.48 0.48 re f 57.121 634.099 480.72 0.48 re f 57.121 635.059 480.72 0.48 re f 538.801 634.099 0.48 1.44 re f 537.841 634.099 1.44 0.48 re f 537.841 635.059 0.48 0.48 re f 55.681 635.539 0.48 12.96 re f 56.641 635.539 0.48 12.96 re f 538.801 635.539 0.48 12.96 re f 537.841 635.539 0.48 12.96 re f BT /TT8 1 Tf 13.92 0 0 13.92 168.721 540.499 Tm 0 Tc 0.0004 Tw (1 – Adéquation des réseaux)Tj 0 -3.4483 TD 0.0001 Tc 0.0005 Tw (2 – Simulations hydrauliques)Tj T* 0 Tc 0.0004 Tw (3 – Résultats de l’enquête de terrain)Tj T* 0.0001 Tc 0.0005 Tw (4 – Autres facteurs de dysfonctionnement)Tj ET endstream endobj 48 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT8 7 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 50 0 obj << /Length 24912 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 14)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 60.961 734.179 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 737.7791 Tm 0 g 0 Tw (1 - A)Tj 10.8 0 0 10.8 132.721 737.7791 Tm 0.0001 Tc 0.0006 Tw (DEQUATION DES RESEAUX)Tj ET 60.961 733.699 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.921 696.979 Tm 0.0024 Tc 0.0244 Tw (Dans le tableau ci-dessous, nous avons reporté les données des deux tableaux précédents.)Tj -2.96 -1 TD 0.0085 Tc 0.085 Tw (Pour les débits de pointe de chaque tronçon, nous avons utilisé le résultat le plus défavorable)Tj T* 0 Tc 0.0002 Tw (entre les différentes pluies simulées en décennal \(10 à 75 min\).)Tj ET 0.851 g 71.041 627.859 72.48 30 re f BT /TT4 1 Tf 12 0 0 12 92.161 639.379 Tm 0 g 0 Tw (Nœud)Tj ET 0.851 g 144.241 627.859 73.68 30 re f BT 12 0 0 12 156.241 639.379 Tm 0 g (Versant C)Tj ET 0.851 g 218.641 627.859 63.12 30 re f BT 12 0 0 12 228.721 639.379 Tm 0 g (Tronçon)Tj ET 0.851 g 282.481 627.859 70.08 30 re f BT 12 0 0 12 297.121 645.379 Tm 0 g (Débit de)Tj ET 0.851 g 283.681 630.979 67.92 12 re f BT 12 0 0 12 285.121 633.379 Tm 0 g (pointe \(m3/s\))Tj ET 0.851 g 353.281 627.859 83.04 30 re f BT 12 0 0 12 365.281 645.379 Tm 0 g (Capacité du)Tj ET 0.851 g 354.481 630.979 80.88 12 re f BT 12 0 0 12 358.321 633.379 Tm 0 g 0.0001 Tc 0.0006 Tw (tronçon \(m3/s\))Tj ET 0.851 g 437.041 627.859 86.88 30 re f BT 12 0 0 12 460.561 645.379 Tm 0 g 0 Tc 0 Tw (Rapport)Tj ET 0.851 g 438.481 630.979 84.48 12 re f BT 12 0 0 12 441.121 633.379 Tm 0 g (Débit / Capacité)Tj ET 70.321 657.859 454.32 0.72 re f 70.321 627.859 0.72 30 re f 143.521 627.859 0.72 30 re f 217.921 627.859 0.72 30 re f 281.761 627.859 0.72 30 re f 352.561 627.859 0.72 30 re f 436.321 627.859 0.72 30 re f 523.921 627.859 0.72 30 re f BT /TT6 1 Tf 10.8 0 0 10.8 88.081 617.7791 Tm (BVC 1.1)Tj ET 1 0.8 0 rg 218.641 615.379 63.36 12 re f 219.841 615.379 60.96 12 re f BT 10.8 0 0 10.8 244.081 617.7791 Tm 0 g [(L1)-4822.5(0,54)-5405.6(0,15)]TJ ET 1 0.8 0 rg 437.041 615.379 87.12 12 re f 438.481 615.379 84.48 12 re f BT 10.8 0 0 10.8 471.121 617.7791 Tm 0 g (3,60)Tj ET 70.321 627.379 454.32 0.48 re f 70.561 615.379 0.48 12 re f 143.761 615.379 0.48 12 re f 218.161 615.379 0.48 12 re f 282.001 615.379 0.48 12 re f 352.801 615.379 0.48 12 re f 436.561 615.379 0.48 12 re f 524.161 615.379 0.48 12 re f BT 10.8 0 0 10.8 100.561 605.299 Tm (N2)Tj ET 0.8 1 0.8 rg 218.641 602.899 63.36 12 re f 219.841 602.899 60.96 12 re f BT 10.8 0 0 10.8 244.081 605.299 Tm 0 g [(L2)-4822.5(0,54)-5405.6(0,50)]TJ ET 0.8 1 0.8 rg 437.041 602.899 87.12 12 re f 438.481 602.899 84.48 12 re f BT 10.8 0 0 10.8 471.121 605.299 Tm 0 g (1,10)Tj ET 70.561 614.899 73.68 0.48 re f 218.161 614.899 306.48 0.48 re f 70.561 602.899 0.48 12 re f 143.761 602.899 0.48 12 re f 218.161 602.899 0.48 12 re f 282.001 602.899 0.48 12 re f 352.801 602.899 0.48 12 re f 436.561 602.899 0.48 12 re f 524.161 602.899 0.48 12 re f BT 10.8 0 0 10.8 100.561 592.819 Tm (N3)Tj 6.8444 1.1778 TD (1.1)Tj ET 0.8 1 1 rg 218.641 590.179 63.36 12 re f 219.841 590.419 60.96 12 re f BT 10.8 0 0 10.8 244.081 592.819 Tm 0 g [(L3)-4822.5(0,54)-5405.6(0,81)]TJ ET 0.8 1 1 rg 437.041 590.179 87.12 12 re f 438.481 590.419 84.48 12 re f BT 10.8 0 0 10.8 471.121 592.819 Tm 0 g (0,65)Tj ET 70.561 602.419 73.68 0.48 re f 218.161 602.419 306.48 0.48 re f 70.561 590.179 0.48 12.24 re f 143.761 590.179 0.48 12.24 re f 218.161 590.179 0.48 12.24 re f 282.001 590.179 0.48 12.24 re f 352.801 590.179 0.48 12.24 re f 436.561 590.179 0.48 12.24 re f 524.161 590.179 0.48 12.24 re f BT 10.8 0 0 10.8 88.081 580.099 Tm (BVC 1.2)Tj ET 1 0.8 0 rg 218.641 577.699 63.36 12 re f 219.841 577.699 60.96 12 re f BT 10.8 0 0 10.8 244.081 580.099 Tm 0 g [(L4)-4822.5(0,34)-5405.6(0,15)]TJ ET 1 0.8 0 rg 437.041 577.699 87.12 12 re f 438.481 577.699 84.48 12 re f BT 10.8 0 0 10.8 471.121 580.099 Tm 0 g (2,30)Tj ET 70.561 589.699 454.08 0.48 re f 70.561 577.699 0.48 12 re f 143.761 577.699 0.48 12 re f 218.161 577.699 0.48 12 re f 282.001 577.699 0.48 12 re f 352.801 577.699 0.48 12 re f 436.561 577.699 0.48 12 re f 524.161 577.699 0.48 12 re f BT 10.8 0 0 10.8 100.561 567.619 Tm (N5)Tj ET 1 0.498 0.498 rg 218.641 565.219 63.36 12 re f 219.841 565.219 60.96 12 re f BT 10.8 0 0 10.8 244.081 567.619 Tm 0 g [(L5)-4822.5(0,34)-5405.6(0,08)]TJ ET 1 0.498 0.498 rg 437.041 565.219 87.12 12 re f 438.481 565.219 84.48 12 re f BT 10.8 0 0 10.8 471.121 567.619 Tm 0 g (4,30)Tj ET 70.561 577.219 73.68 0.48 re f 218.161 577.219 306.48 0.48 re f 70.561 565.219 0.48 12 re f 143.761 565.219 0.48 12 re f 218.161 565.219 0.48 12 re f 282.001 565.219 0.48 12 re f 352.801 565.219 0.48 12 re f 436.561 565.219 0.48 12 re f 524.161 565.219 0.48 12 re f BT 10.8 0 0 10.8 100.561 555.139 Tm (N6)Tj 6.8444 1.1778 TD (1.2)Tj ET 0.8 1 1 rg 218.641 552.739 63.36 12 re f 219.841 552.739 60.96 12 re f BT 10.8 0 0 10.8 244.081 555.139 Tm 0 g [(L6)-4822.5(0,35)-5405.6(0,57)]TJ ET 0.8 1 1 rg 437.041 552.739 87.12 12 re f 438.481 552.739 84.48 12 re f BT 10.8 0 0 10.8 471.121 555.139 Tm 0 g (0,60)Tj ET 70.561 564.739 73.68 0.48 re f 218.161 564.739 306.48 0.48 re f 70.561 552.739 0.48 12 re f 143.761 552.739 0.48 12 re f 218.161 552.739 0.48 12 re f 282.001 552.739 0.48 12 re f 352.801 552.739 0.48 12 re f 436.561 552.739 0.48 12 re f 524.161 552.739 0.48 12 re f BT 10.8 0 0 10.8 88.081 542.6591 Tm [(BVC 1.3)-10888.3(L8)-4822.5(0,50)-6138.9(/)-7655.5(/)]TJ ET 70.561 552.259 454.08 0.48 re f 70.561 540.259 0.48 12 re f 143.761 540.259 0.48 12 re f 218.161 540.259 0.48 12 re f 282.001 540.259 0.48 12 re f 352.801 540.259 0.48 12 re f 436.561 540.259 0.48 12 re f 524.161 540.259 0.48 12 re f BT 10.8 0 0 10.8 100.561 530.179 Tm (N9)Tj 6.8444 0.6 TD (1.3)Tj ET 0.8 1 1 rg 218.641 527.779 63.36 12 re f 219.841 527.779 60.96 12 re f BT 10.8 0 0 10.8 244.081 530.179 Tm 0 g [(L9)-4822.5(0,51)-5405.6(0,69)]TJ ET 0.8 1 1 rg 437.041 527.779 87.12 12 re f 438.481 527.779 84.48 12 re f BT 10.8 0 0 10.8 471.121 530.179 Tm 0 g (0,75)Tj ET 70.561 539.779 73.68 0.48 re f 218.161 539.779 306.48 0.48 re f 70.561 527.779 0.48 12 re f 143.761 527.779 0.48 12 re f 218.161 527.779 0.48 12 re f 282.001 527.779 0.48 12 re f 352.801 527.779 0.48 12 re f 436.561 527.779 0.48 12 re f 524.161 527.779 0.48 12 re f BT 10.8 0 0 10.8 97.921 517.699 Tm [(N15)-3544.5(1.1+1.2+1.3)]TJ ET 0.8 1 1 rg 218.641 515.299 63.36 12 re f 219.841 515.299 60.96 12 re f BT 10.8 0 0 10.8 241.441 517.699 Tm 0 g [(L15)-4566.9(1,31)-5405.6(1,39)]TJ ET 0.8 1 1 rg 437.041 515.299 87.12 12 re f 438.481 515.299 84.48 12 re f BT 10.8 0 0 10.8 471.121 517.699 Tm 0 g (0,95)Tj ET 70.561 527.299 454.08 0.48 re f 70.561 515.299 0.48 12 re f 143.761 515.299 0.48 12 re f 218.161 515.299 0.48 12 re f 282.001 515.299 0.48 12 re f 352.801 515.299 0.48 12 re f 436.561 515.299 0.48 12 re f 524.161 515.299 0.48 12 re f BT 10.8 0 0 10.8 74.401 505.219 Tm (BVC 1.4&N20)Tj ET 1 0.498 0.498 rg 218.641 502.819 63.36 12 re f 219.841 502.819 60.96 12 re f BT 10.8 0 0 10.8 241.441 505.219 Tm 0 g [(L20)-4566.9(1,94)-5405.6(0,35)]TJ ET 1 0.498 0.498 rg 437.041 502.819 87.12 12 re f 438.481 502.819 84.48 12 re f BT 10.8 0 0 10.8 471.121 505.219 Tm 0 g (5,55)Tj ET 70.561 514.819 454.08 0.48 re f 70.561 502.819 0.48 12 re f 143.761 502.819 0.48 12 re f 218.161 502.819 0.48 12 re f 282.001 502.819 0.48 12 re f 352.801 502.819 0.48 12 re f 436.561 502.819 0.48 12 re f 524.161 502.819 0.48 12 re f BT 10.8 0 0 10.8 97.921 492.739 Tm (N21)Tj 7.4444 0.6 TD (1)Tj ET 0.8 1 0.8 rg 218.641 490.339 63.36 12 re f 219.841 490.339 60.96 12 re f BT 10.8 0 0 10.8 241.441 492.739 Tm 0 g [(L21)-4566.9(1,94)-5405.6(1,32)]TJ ET 0.8 1 0.8 rg 437.041 490.339 87.12 12 re f 438.481 490.339 84.48 12 re f BT 10.8 0 0 10.8 471.121 492.739 Tm 0 g (1,45)Tj ET 70.561 502.339 73.68 0.48 re f 218.161 502.339 306.48 0.48 re f 70.561 490.339 0.48 12 re f 143.761 490.339 0.48 12 re f 218.161 490.339 0.48 12 re f 282.001 490.339 0.48 12 re f 352.801 490.339 0.48 12 re f 436.561 490.339 0.48 12 re f 524.161 490.339 0.48 12 re f BT 10.8 0 0 10.8 88.081 480.259 Tm (BVC 2.1)Tj ET 1 0.8 0 rg 218.641 477.859 63.36 12 re f 219.841 477.859 60.96 12 re f BT 10.8 0 0 10.8 239.041 480.259 Tm 0 g [(L22a)-4345.3(0,27)-5405.6(0,10)]TJ ET 1 0.8 0 rg 437.041 477.859 87.12 12 re f 438.481 477.859 84.48 12 re f BT 10.8 0 0 10.8 471.121 480.259 Tm 0 g (2,70)Tj ET 70.561 489.859 454.08 0.48 re f 70.561 477.859 0.48 12 re f 143.761 477.859 0.48 12 re f 218.161 477.859 0.48 12 re f 282.001 477.859 0.48 12 re f 352.801 477.859 0.48 12 re f 436.561 477.859 0.48 12 re f 524.161 477.859 0.48 12 re f BT 10.8 0 0 10.8 88.081 467.779 Tm (BVC 2.1)Tj 8 0.6 TD (2.1)Tj ET 1 0.8 0 rg 218.641 465.379 63.36 12 re f 219.841 465.379 60.96 12 re f BT 10.8 0 0 10.8 238.801 467.779 Tm 0 g [(L22b)-4311.4(0,27)-5405.6(0,10)]TJ ET 1 0.8 0 rg 437.041 465.379 87.12 12 re f 438.481 465.379 84.48 12 re f BT 10.8 0 0 10.8 471.121 467.779 Tm 0 g (2,70)Tj ET 70.561 477.379 73.68 0.48 re f 218.161 477.379 306.48 0.48 re f 70.561 465.379 0.48 12 re f 143.761 465.379 0.48 12 re f 218.161 465.379 0.48 12 re f 282.001 465.379 0.48 12 re f 352.801 465.379 0.48 12 re f 436.561 465.379 0.48 12 re f 524.161 465.379 0.48 12 re f BT 10.8 0 0 10.8 97.921 455.299 Tm (N23)Tj ET 0.8 1 1 rg 218.641 452.899 63.36 12 re f 219.841 452.899 60.96 12 re f BT 10.8 0 0 10.8 241.441 455.299 Tm 0 g [(L23)-4566.9(2,43)-5405.6(3,50)]TJ ET 0.8 1 1 rg 437.041 452.899 87.12 12 re f 438.481 452.899 84.48 12 re f BT 10.8 0 0 10.8 471.121 455.299 Tm 0 g (0,70)Tj ET 70.561 464.899 454.08 0.48 re f 70.561 452.899 0.48 12 re f 143.761 452.899 0.48 12 re f 218.161 452.899 0.48 12 re f 282.001 452.899 0.48 12 re f 352.801 452.899 0.48 12 re f 436.561 452.899 0.48 12 re f 524.161 452.899 0.48 12 re f BT 10.8 0 0 10.8 97.921 442.819 Tm (N24)Tj 6.5556 0.6 TD (1+2.1)Tj ET 1 0.8 0 rg 218.641 440.179 63.36 12 re f 219.841 440.419 60.96 12 re f BT 10.8 0 0 10.8 241.441 442.819 Tm 0 g [(L24)-4566.9(2,42)-5405.6(0,93)]TJ ET 1 0.8 0 rg 437.041 440.179 87.12 12 re f 438.481 440.419 84.48 12 re f BT 10.8 0 0 10.8 471.121 442.819 Tm 0 g (2,60)Tj ET 70.561 452.419 73.68 0.48 re f 218.161 452.419 306.48 0.48 re f 70.561 440.179 0.48 12.24 re f 143.761 440.179 0.48 12.24 re f 218.161 440.179 0.48 12.24 re f 282.001 440.179 0.48 12.24 re f 352.801 440.179 0.48 12.24 re f 436.561 440.179 0.48 12.24 re f 524.161 440.179 0.48 12.24 re f BT 10.8 0 0 10.8 74.401 430.099 Tm (BVC 2.2&N25)Tj ET 0.8 1 0.8 rg 218.641 427.699 63.36 12 re f 219.841 427.699 60.96 12 re f BT 10.8 0 0 10.8 241.441 430.099 Tm 0 g [(L25)-4566.9(2,69)-5405.6(1,92)]TJ ET 0.8 1 0.8 rg 437.041 427.699 87.12 12 re f 438.481 427.699 84.48 12 re f BT 10.8 0 0 10.8 471.121 430.099 Tm 0 g (1,40)Tj ET 70.561 439.699 454.08 0.48 re f 70.561 427.699 0.48 12 re f 143.761 427.699 0.48 12 re f 218.161 427.699 0.48 12 re f 282.001 427.699 0.48 12 re f 352.801 427.699 0.48 12 re f 436.561 427.699 0.48 12 re f 524.161 427.699 0.48 12 re f BT 10.8 0 0 10.8 97.921 417.619 Tm (N26)Tj ET 0.8 1 0.8 rg 218.641 415.219 63.36 12 re f 219.841 415.219 60.96 12 re f BT 10.8 0 0 10.8 241.441 417.619 Tm 0 g [(L26)-4566.9(2,69)-5405.6(2,25)]TJ ET 0.8 1 0.8 rg 437.041 415.219 87.12 12 re f 438.481 415.219 84.48 12 re f BT 10.8 0 0 10.8 471.121 417.619 Tm 0 g (1,20)Tj ET 70.561 427.219 73.68 0.48 re f 218.161 427.219 306.48 0.48 re f 70.561 415.219 0.48 12 re f 143.761 415.219 0.48 12 re f 218.161 415.219 0.48 12 re f 282.001 415.219 0.48 12 re f 352.801 415.219 0.48 12 re f 436.561 415.219 0.48 12 re f 524.161 415.219 0.48 12 re f BT 10.8 0 0 10.8 97.921 405.139 Tm (N30)Tj ET 1 0.498 0.498 rg 218.641 402.739 63.36 12 re f 219.841 402.739 60.96 12 re f BT 10.8 0 0 10.8 241.441 405.139 Tm 0 g [(L30)-4566.9(2,69)-5405.6(0,62)]TJ ET 1 0.498 0.498 rg 437.041 402.739 87.12 12 re f 438.481 402.739 84.48 12 re f BT 10.8 0 0 10.8 471.121 405.139 Tm 0 g (4,35)Tj ET 70.561 414.739 73.68 0.48 re f 218.161 414.739 306.48 0.48 re f 70.561 402.739 0.48 12 re f 143.761 402.739 0.48 12 re f 218.161 402.739 0.48 12 re f 282.001 402.739 0.48 12 re f 352.801 402.739 0.48 12 re f 436.561 402.739 0.48 12 re f 524.161 402.739 0.48 12 re f BT 10.8 0 0 10.8 97.921 392.659 Tm (N31)Tj ET 1 g 218.641 390.259 63.36 12 re f 219.841 390.259 60.96 12 re f BT 10.8 0 0 10.8 239.041 392.659 Tm 0 g [(L31a)-4345.3(1,07)-6138.9(/)]TJ ET 1 g 437.041 390.259 87.12 12 re f 438.481 390.259 84.48 12 re f BT 10.8 0 0 10.8 479.041 392.659 Tm 0 g (/)Tj ET 70.561 402.259 73.68 0.48 re f 218.161 402.259 306.48 0.48 re f 70.561 390.259 0.48 12 re f 143.761 390.259 0.48 12 re f 218.161 390.259 0.48 12 re f 282.001 390.259 0.48 12 re f 352.801 390.259 0.48 12 re f 436.561 390.259 0.48 12 re f 524.161 390.259 0.48 12 re f BT 10.8 0 0 10.8 97.921 380.179 Tm (N31)Tj 5.6444 2.3333 TD (1+2.1+2.2)Tj ET 1 0.8 0 rg 218.641 377.779 63.36 12 re f 219.841 377.779 60.96 12 re f BT 10.8 0 0 10.8 238.801 380.179 Tm 0 g [(L31b)-4311.4(1,62)-5405.6(0,71)]TJ ET 1 0.8 0 rg 437.041 377.779 87.12 12 re f 438.481 377.779 84.48 12 re f BT 10.8 0 0 10.8 471.121 380.179 Tm 0 g (2,30)Tj ET 70.561 389.779 73.68 0.48 re f 218.161 389.779 306.48 0.48 re f 70.561 377.779 0.48 12 re f 143.761 377.779 0.48 12 re f 218.161 377.779 0.48 12 re f 282.001 377.779 0.48 12 re f 352.801 377.779 0.48 12 re f 436.561 377.779 0.48 12 re f 524.161 377.779 0.48 12 re f BT 10.8 0 0 10.8 88.081 367.699 Tm [(BVC 2.3)-4443.8(2.3)]TJ ET 1 0.498 0.498 rg 218.641 365.299 63.36 12 re f 219.841 365.299 60.96 12 re f BT 10.8 0 0 10.8 241.441 367.699 Tm 0 g [(L35)-4566.9(0,47)-5405.6(0,09)]TJ ET 1 0.498 0.498 rg 437.041 365.299 87.12 12 re f 438.481 365.299 84.48 12 re f BT 10.8 0 0 10.8 471.121 367.699 Tm 0 g (5,25)Tj ET 70.561 377.299 454.08 0.48 re f 70.561 365.299 0.48 12 re f 143.761 365.299 0.48 12 re f 218.161 365.299 0.48 12 re f 282.001 365.299 0.48 12 re f 352.801 365.299 0.48 12 re f 436.561 365.299 0.48 12 re f 524.161 365.299 0.48 12 re f BT 10.8 0 0 10.8 97.921 355.219 Tm (N40)Tj ET 0.8 1 0.8 rg 218.641 352.819 63.36 12 re f 219.841 352.819 60.96 12 re f BT 10.8 0 0 10.8 241.441 355.219 Tm 0 g [(L40)-4566.9(1,74)-5405.6(1,31)]TJ ET 0.8 1 0.8 rg 437.041 352.819 87.12 12 re f 438.481 352.819 84.48 12 re f BT 10.8 0 0 10.8 471.121 355.219 Tm 0 g (1,35)Tj ET 70.561 364.819 454.08 0.48 re f 70.561 352.819 0.48 12 re f 143.761 352.819 0.48 12 re f 218.161 352.819 0.48 12 re f 282.001 352.819 0.48 12 re f 352.801 352.819 0.48 12 re f 436.561 352.819 0.48 12 re f 524.161 352.819 0.48 12 re f BT 10.8 0 0 10.8 97.921 342.739 Tm (N41)Tj 6.9333 0.6 TD (1+2)Tj ET 1 0.8 0 rg 218.641 340.339 63.36 12 re f 219.841 340.339 60.96 12 re f BT 10.8 0 0 10.8 241.441 342.739 Tm 0 g [(L41)-4566.9(2,80)-5405.6(0,91)]TJ ET 1 0.8 0 rg 437.041 340.339 87.12 12 re f 438.481 340.339 84.48 12 re f BT 10.8 0 0 10.8 471.121 342.739 Tm 0 g (3,05)Tj ET 70.561 352.339 73.68 0.48 re f 218.161 352.339 306.48 0.48 re f 70.561 340.339 0.48 12 re f 143.761 340.339 0.48 12 re f 218.161 340.339 0.48 12 re f 282.001 340.339 0.48 12 re f 352.801 340.339 0.48 12 re f 436.561 340.339 0.48 12 re f 524.161 340.339 0.48 12 re f BT 10.8 0 0 10.8 88.081 330.259 Tm [(BVC 3.1)-4443.8(3.1)]TJ ET 1 0.498 0.498 rg 218.641 327.859 63.36 12 re f 219.841 327.859 60.96 12 re f BT 10.8 0 0 10.8 241.441 330.259 Tm 0 g [(L45)-4566.9(0,69)-5405.6(0,10)]TJ ET 1 0.498 0.498 rg 437.041 327.859 87.12 12 re f 438.481 327.859 84.48 12 re f BT 10.8 0 0 10.8 471.121 330.259 Tm 0 g (6,90)Tj ET 70.561 339.859 454.08 0.48 re f 70.561 327.859 0.48 12 re f 143.761 327.859 0.48 12 re f 218.161 327.859 0.48 12 re f 282.001 327.859 0.48 12 re f 352.801 327.859 0.48 12 re f 436.561 327.859 0.48 12 re f 524.161 327.859 0.48 12 re f BT 10.8 0 0 10.8 88.081 317.7791 Tm (BVC 3.2)Tj ET 1 0.498 0.498 rg 218.641 315.379 63.36 12 re f 219.841 315.379 60.96 12 re f BT 10.8 0 0 10.8 241.441 317.7791 Tm 0 g [(L46)-4566.9(0,56)-5405.6(0,14)]TJ ET 1 0.498 0.498 rg 437.041 315.379 87.12 12 re f 438.481 315.379 84.48 12 re f BT 10.8 0 0 10.8 471.121 317.7791 Tm 0 g (4,00)Tj ET 70.561 327.379 454.08 0.48 re f 70.561 315.379 0.48 12 re f 143.761 315.379 0.48 12 re f 218.161 315.379 0.48 12 re f 282.001 315.379 0.48 12 re f 352.801 315.379 0.48 12 re f 436.561 315.379 0.48 12 re f 524.161 315.379 0.48 12 re f BT 10.8 0 0 10.8 97.921 305.2991 Tm (N47)Tj 7.0889 0.6 TD (3.2)Tj 6.2 -0.6 TD [(L47)-4566.9(0,56)-6138.9(/)-7655.5(/)]TJ ET 70.561 314.899 73.68 0.48 re f 218.161 314.899 306.48 0.48 re f 70.561 302.899 0.48 12 re f 143.761 302.899 0.48 12 re f 218.161 302.899 0.48 12 re f 282.001 302.899 0.48 12 re f 352.801 302.899 0.48 12 re f 436.561 302.899 0.48 12 re f 524.161 302.899 0.48 12 re f BT 10.8 0 0 10.8 97.921 292.8191 Tm (N48)Tj ET 1 0.498 0.498 rg 218.641 290.179 63.36 12 re f 219.841 290.419 60.96 12 re f BT 10.8 0 0 10.8 241.441 292.8191 Tm 0 g [(L48)-4566.9(1,02)-5405.6(0,25)]TJ ET 1 0.498 0.498 rg 437.041 290.179 87.12 12 re f 438.481 290.419 84.48 12 re f BT 10.8 0 0 10.8 471.121 292.8191 Tm 0 g (4,10)Tj ET 70.561 302.419 454.08 0.48 re f 70.561 290.179 0.48 12.24 re f 143.761 290.179 0.48 12.24 re f 218.161 290.179 0.48 12.24 re f 282.001 290.179 0.48 12.24 re f 352.801 290.179 0.48 12.24 re f 436.561 290.179 0.48 12.24 re f 524.161 290.179 0.48 12.24 re f BT 10.8 0 0 10.8 97.921 280.0991 Tm (N49)Tj 7.4444 0.6222 TD (3)Tj ET 1 0.498 0.498 rg 218.641 277.699 63.36 12 re f 219.841 277.699 60.96 12 re f BT 10.8 0 0 10.8 241.441 280.0991 Tm 0 g [(L49)-4566.9(1,02)-5405.6(0,12)]TJ ET 1 0.498 0.498 rg 437.041 277.699 87.12 12 re f 438.481 277.699 84.48 12 re f BT 10.8 0 0 10.8 471.121 280.0991 Tm 0 g (8,55)Tj ET 70.561 289.699 73.68 0.48 re f 218.161 289.699 306.48 0.48 re f 70.561 277.699 0.48 12 re f 143.761 277.699 0.48 12 re f 218.161 277.699 0.48 12 re f 282.001 277.699 0.48 12 re f 352.801 277.699 0.48 12 re f 436.561 277.699 0.48 12 re f 524.161 277.699 0.48 12 re f BT 10.8 0 0 10.8 97.921 267.619 Tm [(N55)-4677.8(1+2+3)]TJ ET 1 0.8 0 rg 218.641 265.219 63.36 12 re f 219.841 265.219 60.96 12 re f BT 10.8 0 0 10.8 241.441 267.619 Tm 0 g [(L55)-4566.9(3,67)-5405.6(1,47)]TJ ET 1 0.8 0 rg 437.041 265.219 87.12 12 re f 438.481 265.219 84.48 12 re f BT 10.8 0 0 10.8 471.121 267.619 Tm 0 g (2,50)Tj ET 70.561 277.219 454.08 0.48 re f 70.561 265.219 0.48 12 re f 143.761 265.219 0.48 12 re f 218.161 265.219 0.48 12 re f 282.001 265.219 0.48 12 re f 352.801 265.219 0.48 12 re f 436.561 265.219 0.48 12 re f 524.161 265.219 0.48 12 re f BT 10.8 0 0 10.8 74.401 255.1391 Tm [(BVC 4.1&N56)-1610.5(1+2+3+4.1)]TJ ET 1 0.8 0 rg 218.641 252.739 63.36 12 re f 219.841 252.739 60.96 12 re f BT 10.8 0 0 10.8 241.441 255.1391 Tm 0 g [(L56)-4566.9(3,82)-5405.6(1,14)]TJ ET 1 0.8 0 rg 437.041 252.739 87.12 12 re f 438.481 252.739 84.48 12 re f BT 10.8 0 0 10.8 471.121 255.1391 Tm 0 g (3,35)Tj ET 70.561 264.739 454.08 0.48 re f 70.561 252.739 0.48 12 re f 143.761 252.739 0.48 12 re f 218.161 252.739 0.48 12 re f 282.001 252.739 0.48 12 re f 352.801 252.739 0.48 12 re f 436.561 252.739 0.48 12 re f 524.161 252.739 0.48 12 re f BT 10.8 0 0 10.8 88.081 242.6591 Tm (BVC 4.2)Tj ET 1 0.8 0 rg 218.641 240.259 63.36 12 re f 219.841 240.259 60.96 12 re f BT 10.8 0 0 10.8 241.441 242.6591 Tm 0 g [(L60)-4566.9(0,50)-5405.6(0,25)]TJ ET 1 0.8 0 rg 437.041 240.259 87.12 12 re f 438.481 240.259 84.48 12 re f BT 10.8 0 0 10.8 471.121 242.6591 Tm 0 g (2,00)Tj ET 70.561 252.259 454.08 0.48 re f 70.561 240.259 0.48 12 re f 143.761 240.259 0.48 12 re f 218.161 240.259 0.48 12 re f 282.001 240.259 0.48 12 re f 352.801 240.259 0.48 12 re f 436.561 240.259 0.48 12 re f 524.161 240.259 0.48 12 re f BT 10.8 0 0 10.8 97.921 230.179 Tm (N61)Tj ET 1 0.498 0.498 rg 218.641 227.779 63.36 12 re f 219.841 227.779 60.96 12 re f BT 10.8 0 0 10.8 241.441 230.179 Tm 0 g [(L61)-4566.9(0,48)-5405.6(0,12)]TJ ET 1 0.498 0.498 rg 437.041 227.779 87.12 12 re f 438.481 227.779 84.48 12 re f BT 10.8 0 0 10.8 471.121 230.179 Tm 0 g (4,00)Tj ET 70.561 239.779 73.68 0.48 re f 218.161 239.779 306.48 0.48 re f 70.561 227.779 0.48 12 re f 143.761 227.779 0.48 12 re f 218.161 227.779 0.48 12 re f 282.001 227.779 0.48 12 re f 352.801 227.779 0.48 12 re f 436.561 227.779 0.48 12 re f 524.161 227.779 0.48 12 re f BT 10.8 0 0 10.8 97.921 217.6991 Tm (N62)Tj ET 1 0.498 0.498 rg 218.641 215.299 63.36 12 re f 219.841 215.299 60.96 12 re f BT 10.8 0 0 10.8 241.441 217.6991 Tm 0 g [(L62)-4566.9(0,48)-5405.6(0,08)]TJ ET 1 0.498 0.498 rg 437.041 215.299 87.12 12 re f 438.481 215.299 84.48 12 re f BT 10.8 0 0 10.8 471.121 217.6991 Tm 0 g (6,00)Tj ET 70.561 227.299 73.68 0.48 re f 218.161 227.299 306.48 0.48 re f 70.561 215.299 0.48 12 re f 143.761 215.299 0.48 12 re f 218.161 215.299 0.48 12 re f 282.001 215.299 0.48 12 re f 352.801 215.299 0.48 12 re f 436.561 215.299 0.48 12 re f 524.161 215.299 0.48 12 re f BT 10.8 0 0 10.8 97.921 205.2191 Tm (N63)Tj 7.0889 1.7556 TD (4.2)Tj ET 0.8 1 1 rg 218.641 202.819 63.36 12 re f 219.841 202.819 60.96 12 re f BT 10.8 0 0 10.8 241.441 205.2191 Tm 0 g [(L63)-4566.9(0,46)-5405.6(0,64)]TJ ET 0.8 1 1 rg 437.041 202.819 87.12 12 re f 438.481 202.819 84.48 12 re f BT 10.8 0 0 10.8 471.121 205.2191 Tm 0 g (0,70)Tj ET 70.561 214.819 73.68 0.48 re f 218.161 214.819 306.48 0.48 re f 70.561 202.819 0.48 12 re f 143.761 202.819 0.48 12 re f 218.161 202.819 0.48 12 re f 282.001 202.819 0.48 12 re f 352.801 202.819 0.48 12 re f 436.561 202.819 0.48 12 re f 524.161 202.819 0.48 12 re f BT 10.8 0 0 10.8 97.921 192.739 Tm [(N65)-2855.6(1+2+3+4.1+4.2)]TJ ET 1 0.8 0 rg 218.641 190.339 63.36 12 re f 219.841 190.339 60.96 12 re f BT 10.8 0 0 10.8 241.441 192.739 Tm 0 g [(L65)-4566.9(3,94)-5405.6(1,24)]TJ ET 1 0.8 0 rg 437.041 190.339 87.12 12 re f 438.481 190.339 84.48 12 re f BT 10.8 0 0 10.8 471.121 192.739 Tm 0 g (3,20)Tj ET 70.561 202.339 454.08 0.48 re f 70.561 190.339 0.48 12 re f 143.761 190.339 0.48 12 re f 218.161 190.339 0.48 12 re f 282.001 190.339 0.48 12 re f 352.801 190.339 0.48 12 re f 436.561 190.339 0.48 12 re f 524.161 190.339 0.48 12 re f BT 10.8 0 0 10.8 74.401 180.259 Tm (BVC 4.3&N66)Tj ET 1 0.8 0 rg 218.641 177.859 63.12 12 re f 219.841 177.859 60.96 12 re f BT 10.8 0 0 10.8 241.441 180.259 Tm 0 g [(L66)-4566.9(3,94)-5405.6(1,15)]TJ ET 1 0.8 0 rg 437.041 177.859 86.88 12 re f 438.481 177.859 84.48 12 re f BT 10.8 0 0 10.8 471.121 180.259 Tm 0 g (3,45)Tj ET 70.561 189.859 454.08 0.48 re f 70.561 177.859 0.48 12 re f 143.761 177.859 0.48 12 re f 218.161 177.859 0.48 12 re f 281.761 177.859 0.72 12 re f 352.561 177.859 0.72 12 re f 436.321 177.859 0.72 12 re f 523.921 177.859 0.72 12 re f BT 10.8 0 0 10.8 97.921 167.7791 Tm (N67)Tj ET 1 0.8 0 rg 218.641 165.379 63.36 12 re f 219.841 165.379 60.96 12 re f BT 10.8 0 0 10.8 241.441 167.7791 Tm 0 g [(L67)-4566.9(4,36)-5405.6(1,51)]TJ ET 1 0.8 0 rg 437.041 165.379 87.12 12 re f 438.481 165.379 84.48 12 re f BT 10.8 0 0 10.8 471.121 167.7791 Tm 0 g (2,90)Tj ET 70.561 177.379 73.68 0.48 re f 218.161 177.379 306.48 0.48 re f 70.561 165.379 0.48 12 re f 143.761 165.379 0.48 12 re f 218.161 165.379 0.48 12 re f 282.001 165.379 0.48 12 re f 352.801 165.379 0.48 12 re f 436.561 165.379 0.48 12 re f 524.161 165.379 0.48 12 re f BT 10.8 0 0 10.8 97.921 155.299 Tm (N68)Tj 5.8667 1.1778 TD (1+2+3+4)Tj ET 1 0.498 0.498 rg 218.641 152.899 63.36 12 re f 219.841 152.899 60.96 12 re f BT 10.8 0 0 10.8 241.441 155.299 Tm 0 g [(L68)-4566.9(4,36)-5405.6(0,77)]TJ ET 1 0.498 0.498 rg 437.041 152.899 87.12 12 re f 438.481 152.899 84.48 12 re f BT 10.8 0 0 10.8 471.121 155.299 Tm 0 g (5,65)Tj ET 70.561 164.899 73.68 0.48 re f 218.161 164.899 306.48 0.48 re f 70.561 152.899 0.48 12 re f 143.761 152.899 0.48 12 re f 218.161 152.899 0.48 12 re f 282.001 152.899 0.48 12 re f 352.801 152.899 0.48 12 re f 436.561 152.899 0.48 12 re f 524.161 152.899 0.48 12 re f 70.561 152.419 454.08 0.48 re f 70.561 140.179 0.48 12.24 re f 524.161 140.179 0.48 12.24 re f BT 10.8 0 0 10.8 105.601 129.859 Tm (/)Tj ET 1 0.8 0 rg 144.241 126.979 73.92 12.72 re f BT 10.8 0 0 10.8 159.121 129.859 Tm 0 g (Versant D)Tj ET 1 0.8 0 rg 218.641 126.979 63.36 12.72 re f BT 10.8 0 0 10.8 248.641 129.859 Tm 0 g [(/)-5233.3(0,85)-3094.4(0,08+0,15=0,23)]TJ ET 1 0.8 0 rg 437.041 126.979 87.12 12.72 re f BT 10.8 0 0 10.8 471.121 129.859 Tm 0 g (3,70)Tj ET 70.561 139.699 454.08 0.48 re f 70.561 126.499 0.48 13.2 re f 71.041 126.499 72.72 0.48 re f 143.761 126.499 0.48 13.2 re f 144.241 126.499 73.92 0.48 re f 218.161 126.499 0.48 13.2 re f 218.641 126.499 63.36 0.48 re f 282.001 126.499 0.48 13.2 re f 282.481 126.499 70.32 0.48 re f 352.801 126.499 0.48 13.2 re f 353.281 126.499 83.28 0.48 re f 436.561 126.499 0.48 13.2 re f 437.041 126.499 87.12 0.48 re f 524.161 126.499 0.48 13.2 re f endstream endobj 51 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 53 0 obj << /Length 4419 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 15)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 749.539 Tm 0.0023 Tc 0.0226 Tw (Dans le tableau ci-dessus, un code de couleur a été attribué en fonction des rapports débit)Tj -2.94 -1 TD 0.0064 Tc 0.0641 Tw (théorique décennal / capacité du réseau. Les couleurs rouge et orange indiquent des émissaires)Tj T* 0.001 Tc 0.01 Tw (trop réduits entraînant des dysfonctionnements importants. Les couleurs bleu ou vert signalent un)Tj T* 0 Tc 0.0001 Tw (léger dysfonctionnement ou non, avec pas ou peu de perturbations.)Tj 2.94 -2 TD 0.0132 Tc 0.1315 Tw (Les tronçons non colorés correspondent à des tronçons à contre-pentes. Ces derniers)Tj -2.94 -1 TD 0.0072 Tc 0.0716 Tw (n’ayant pas en théorie de capacité, permettent quand-même l’évacuation des eaux grâce à leur)Tj T* 0 Tc 0.0002 Tw (mise en charge par l’amont.)Tj 2.94 -2 TD 0.0015 Tc 0.0154 Tw [(Au )-6.4(vu de ce tableau, la quasi-totalité des tronçons busés est largement sous-dimensionnée)]TJ -2.94 -1 TD 0 Tc 0.0002 Tw (sur l’ensemble du versant du Gué au Voyer.)Tj /TT4 1 Tf 4.72 -2 TD 0.0001 Tc (Versant C :)Tj ET 119.041 604.099 56.64 0.72 re f BT /TT6 1 Tf 12 0 0 12 97.681 581.539 Tm 0.0175 Tc 0.175 Tw (La saturation des réseaux entraîne des débordements importants au niveau de trois)Tj -2.94 -1 TD 0 Tc 0 Tw (secteurs :)Tj /TT12 1 Tf 1.5 -2 TD (•)Tj /TT14 1 Tf 0.4771 0 TD ( )Tj /TT6 1 Tf 1.0229 0 TD 0.0017 Tc 0.0171 Tw [(Route du Fleuve \(RD 104\) au niveau du village « )17.1(La petite Courbe )17.1(». Cette route traverse)]TJ 0 -1 TD 0.0068 Tc 0.0675 Tw (le versant étudié de bout en bout et les deux traversées de route sont insuffisantes pour)Tj T* 0.0067 Tc 0.0665 Tw (évacuer les eaux de ruissellements des sous-versants amont \(BVC 1.1 et 1.2\). Pour une)Tj T* 0.0097 Tc 0.0968 Tw (pluie décennale d’une heure, les volumes ruisselés sont d’environ 750 m3. Ce secteur)Tj T* 0.0064 Tc 0.0635 Tw (constitue un premier réducteur de débits, le réseau aval est alors soulagé et donc moins)Tj T* 0 Tc 0.0003 Tw (sensible aux saturations.)Tj /TT12 1 Tf -1.5 -2 TD 0 Tw (•)Tj /TT14 1 Tf 0.6289 0 TD ( )Tj /TT6 1 Tf 0.8711 0 TD 0.0179 Tc 0.1751 Tw [(Rue )-36.3(de )-36.3(la )-16.2(Graholière, qui capte les sous-versants 1 et 2.1 soit près de 50 ha. Les)]TJ 0 -1 TD 0.0013 Tc 0.0135 Tw (débordements occasionnés ruissellent le long de la rue tout en étant captés par les réseaux)Tj T* 0.0278 Tc 0.2783 Tw (parallèles en fossés. Cependant, ce secteur étant déjà partiellement urbanisé et)Tj T* 0.0019 Tc 0.0194 Tw (urbanisable, les ruissellements y sont gênants \(environ 1500 m3\). Cette zone constitue un)Tj T* 0 Tc 0.0002 Tw (deuxième réducteur de débits importants.)Tj /TT12 1 Tf -1.5 -2 TD 0 Tw (•)Tj /TT14 1 Tf 0.5927 0 TD ( )Tj /TT6 1 Tf 0.9073 0 TD 0.013 Tc 0.1301 Tw (Carrefour et rue du Boulay. Cette zone urbanisée reçoit les eaux pluviales des sous-)Tj 0 -1 TD 0.0098 Tc 0.0978 Tw (versants 1, 2, 3 et 4.1 et subit des ruissellements importants par faibles laminages sur)Tj T* 0.0138 Tc 0.1381 Tw (voirie. On estime à 3000 m3 les eaux excédentaires avec quelques parcelles privées)Tj T* 0 Tc 0.0001 Tw (situées sous le niveau de la route, donc sujettes aux inondations.)Tj -0.04 -3 TD 0.0141 Tc 0.1413 Tw (Les deux premiers secteurs problématiques cités constituant des pôles importants de)Tj -2.96 -1 TD 0.0036 Tc 0.0364 Tw (réduction de débit, le réseau aval est donc moins sensible aux saturations, ce qui n’empêche pas)Tj T* 0.0024 Tc 0.0242 Tw [(les débordements de la rue du )-11.9(Boulay. On en déduit donc que les réseaux EP concernés sont très)]TJ T* 0 Tc 0.0003 Tw (largement sous dimensionnés.)Tj /TT4 1 Tf 4.72 -4 TD 0.0001 Tc (Versant D :)Tj ET 119.041 232.099 57.36 0.72 re f BT /TT6 1 Tf 12 0 0 12 97.681 209.539 Tm 0.0162 Tc 0.1619 Tw [(A)-7.5( )-66.1(priori, les deux traversées de la RD 37 étant sous dimensionnées, ce versant est)]TJ -2.94 -1 TD 0.0157 Tc 0.1568 Tw (également soumis à quelques débordements. En revanche, ils ruissellent vers l’espace vert)Tj T* 0 Tc 0.0002 Tw (bordant la route, ces inondations engendrent donc des conséquences moindres.)Tj ET endstream endobj 54 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT12 55 0 R /TT14 56 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 58 0 obj << /Length 4590 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 16)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 60.961 734.179 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 737.7791 Tm 0 g 0 Tw (2 – S)Tj 10.8 0 0 10.8 133.5026 737.7791 Tm 0.0001 Tc 0.0009 Tw (IMULATIONS HYDRAULIQUES)Tj ET 60.961 733.699 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 696.979 Tm 0.004 Tc 0.0397 Tw (Nous avons effectué des simulations de débits avec les mêmes pluies que précédemment)Tj -2.94 -1 TD 0.0044 Tc 0.0444 Tw (en considérant les réseaux actuels. Ces simulations sont annexées. Les résultats obtenus sont en)Tj T* 0.0018 Tc 0.0185 Tw [(corrélation avec les rapports « )18.5(débit afférent / capacité )18.5(». La quasi-totalité des réseaux du versant)]TJ T* 0 Tc 0.0002 Tw (est en charge avec plusieurs débordements.)Tj 2.94 -2 TD 0.0015 Tc 0.0147 Tw (Il est à noter que les points de saturation importants en partie amont et centrale du versant)Tj -2.94 -1 TD 0.0058 Tc 0.0563 Tw [(étudié, )-6.5(en )-6.5(particulier )-6.5(sur )-6.5(la )-6.5(rue )-6.5(de )-6.5(le )-5.4(Graholière, soulagent les tronçons en aval, si bien que les)]TJ T* 0.0001 Tc 0.0007 Tw [(dysfonctionnements sont moins conséquents dans la partie )-15.3(aval où les réseaux sont théoriquement)]TJ T* 0 Tc 0.0004 Tw (les plus sous-dimensionnés.)Tj 2.94 -2 TD 0.0001 Tw (Nos simulations ont montré des dysfonctionnements importants aux nœuds suivants :)Tj /TT10 1 Tf -2.94 -2 TD 0.0034 Tc 0.034 Tw [(BVC 1.1 )34(:)]TJ /TT6 1 Tf 4.04 0 TD 0.0036 Tc 0.0358 Tw [( Traversée de route de capacité inférieure aux débits afférents. Ces débordements sont)]TJ -4.04 -1 TD 0.0216 Tc 0.2157 Tw (collectés par les fossés bordant la route et évacués par une Ø600 en terrain privé. Ces)Tj T* 0.0037 Tc 0.037 Tw (dysfonctionnements ont donc moins d’incidences à condition que les fossés et réseaux ne soient)Tj T* 0 Tc 0.0002 Tw (pas trop colmatés par les débris amont.)Tj /TT10 1 Tf 0 -2 TD 0.0021 Tc 0.0208 Tw [(BVC 1.2 & N5 )20.8(:)]TJ /TT6 1 Tf 6.52 0 TD 0.0018 Tc 0.0177 Tw [( Traversée de route \(Ø400\) déjà sous dimensionnée avec réduction immédiate de)]TJ -6.52 -1 TD 0.0045 Tc 0.0466 Tw [(diamètre )7.7(\(Ø300\).Le )12.4(busage en Ø400 ne permet pas d’évacuer les flux afférents du versant rural)]TJ T* 0.0133 Tc 0.1332 Tw (\(vignes et cultures maraîchères\). Contrairement au cas précédent, les eaux excédentaires ne)Tj T* 0.0053 Tc 0.0522 Tw [(peuvent non seulement pas )-9.5(être évacuées mais les débordements sont aggravés par la réduction)]TJ T* 0.0037 Tc 0.0373 Tw (de diamètre \(Ø300\). Ces excédants ruissellent sur la voirie tout en étant récupérés par les fossés)Tj T* 0 Tc 0.0001 Tw (collecteurs de la route du Fleuve, mais viennent aggraver les dysfonctionnements du BVC 1.1.)Tj /TT10 1 Tf 0 -2 TD 0.0021 Tc 0.0215 Tw [(BVC 1.3 )21.5(:)]TJ /TT6 1 Tf 4.02 0 TD 0.0194 Tw [( )-8.9(Réseau )-8.9(sous )-14.4(dimensionné et à contre-pente. Cependant, les débordements occasionnés)]TJ -4.02 -1 TD 0.0087 Tc 0.0867 Tw (sont limités par les fossés même si le risque de colmatage est important et étant au milieu de)Tj T* 0 Tc 0.0002 Tw (cultures maraîchères, ces débordements n’ont que peu d’incidences.)Tj /TT10 1 Tf 0 -2 TD 0 Tw (N20 :)Tj /TT6 1 Tf 2.26 0 TD 0.0099 Tc 0.0994 Tw [( Entrée en réseau de capacité très insuffisante. La réduction de débit est importante, on)]TJ -2.26 -1 TD 0.0113 Tc 0.1134 Tw (passe de 1,40 à 0,78 m3/s actuellement avec en théorie un débit de 1,94 m3/s. Les volumes)Tj T* 0.0032 Tc 0.0325 Tw (excédentaires sont donc conséquents et ruissellent directement vers les habitations protégées par)Tj T* 0.0001 Tc 0.0006 Tw (des fossés.)Tj /TT10 1 Tf 0 -2 TD 0.0084 Tc 0.0844 Tw [(BVC 2.1 )84.4(: )]TJ /TT6 1 Tf 4.48 0 TD 0.0085 Tc 0.0847 Tw (Double traversée en Ø300 de la rue )Tj 15.3005 0 TD 0.0057 Tc 0.0523 Tw [(de )-35.2(la )-28.9(Graholière insuffisante, les débordements)]TJ -19.7805 -1 TD 0.0078 Tc 0.0785 Tw [(sont limités par les fossés)7.6( mais s’ajoutent à un secteur déjà problématique. Les ruissellements)]TJ T* 0.001 Tc 0.0096 Tw (importants \(environ 1500 m3 en 1h\) de cette rue sont gênants du fait des habitations et ruissellent)Tj T* 0.008 Tc 0.0806 Tw (jusqu’à l’intersection des trois rues \(Graholière, Gros Frêne et Maraîchins\) formant une petite)Tj T* 0 Tc 0 Tw (cuvette.)Tj ET endstream endobj 59 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT10 13 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 61 0 obj << /Length 4376 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 17)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT10 1 Tf 12 0 0 12 62.401 749.539 Tm 0 Tw (N25 :)Tj /TT6 1 Tf 2.26 0 TD 0.0076 Tc 0.0762 Tw [( Capacité du réseau insuffisante au vu des débits afférents. Les ruissellements engendrés)]TJ -2.26 -1 TD 0.0019 Tc 0.0193 Tw [(viennent s’ajouter à ceux de la rue de la )-16.1(Graholière et étant en point bas, des inondations doivent)]TJ T* 0 Tc 0.0002 Tw (apparaîtrent. Toutefois, ces inondations sont limitées par les fossés collecteurs.)Tj /TT10 1 Tf 0 -2 TD 0.0015 Tc 0.0309 Tw [(BVC 2.3 )32.4(:)]TJ /TT6 1 Tf 4.02 0 TD 0.0024 Tc 0.0238 Tw [( Réseau rue de la Vendée sous dimensionné. Les eaux excédentaires s’écoulent le long)]TJ -4.02 -1 TD 0 Tc 0.0001 Tw (de la voirie et rejoignent le carrefour de Boulay.)Tj /TT10 1 Tf 0 -2 TD 0.0283 Tc 0.2825 Tw [(BVC 3.1&3.2 )282.5(:)]TJ /TT6 1 Tf 6.6494 0 TD 0.0165 Tc 0.1647 Tw [( Réseaux des routes du Soleil Levant et des Meuniers très insuffisants, en)]TJ -6.6494 -1 TD 0.0153 Tc 0.1532 Tw (particulier pour le sous-versant 3.1 ou le réseau enterré est inaccessible. Une réduction de)Tj T* 0.0168 Tc 0.1678 Tw (diamètre \(Ø400 en Ø300\) a été constatée pour ce même versant, mais l’endroit précis du)Tj T* 0.0014 Tc 0.0145 Tw (changement est inconnu. Les volumes ruisselés par faibles laminages, se rejoignent également au)Tj T* 0 Tc 0.0003 Tw (carrefour de Boulay.)Tj /TT10 1 Tf 0 -2 TD 0 Tw (N49 :)Tj /TT6 1 Tf 2.26 0 TD 0.0057 Tc 0.0568 Tw [( Réduction importante de diamètre \(Ø500 en Ø300\) )]TJ 21.6714 0 TD (pour la traversée de )Tj 8.4535 0 TD (la rue )Tj 2.6519 0 TD 0.0019 Tc 0.0561 Tw (de Boulay)Tj -35.0368 -1 TD 0 Tc 0.0002 Tw (entraînant des débordements sur voirie dans un secteur déjà problématique.)Tj /TT10 1 Tf 0 -2 TD 0 Tw (N56 :)Tj /TT6 1 Tf 2.26 0 TD 0.0244 Tc 0.2436 Tw [( Réseau enterré de capacité très faible au vu des débits afférents à évacuer. Ces)]TJ -2.26 -1 TD 0.0001 Tc 0.0004 Tw [(débordements se mêlent avec ceux déjà conséquents de la rue de )-18.5(Boulay. Cette rue constitue donc)]TJ T* 0.0123 Tc 0.1231 Tw (le secteur le plus problématique du versant du Gué au Voyer avec près de 3000 m3 d’eaux)Tj T* 0.004 Tc 0.0404 Tw (ruisselées pour une pluie d’une heure en milieu urbain. Ces ruissellements sont collectés par les)Tj T* 0.0007 Tc 0.0066 Tw (fossés en bas de la rue, mais lors de fortes précipitations des inondations doivent se produire avec)Tj T* 0 Tc 0.0003 Tw (des conséquences notables pour les constructions proches.)Tj /TT10 1 Tf 0 -2 TD 0 Tw (N61&N62 :)Tj /TT6 1 Tf 4.7 0 TD 0.0145 Tc 0.1445 Tw [( Le réseau de la rue de la Loire )]TJ 14.4101 0 TD (rejoignant celui de la )Tj 9.5739 0 TD 0.0104 Tc 0.1486 Tw [(rue du )11.1(Boulay )65.3(comprend)]TJ -28.684 -1 TD 0.0147 Tc 0.1475 Tw (successivement une réduction de diamètre \(Ø400 en Ø300\) puis une rupture de pente sans)Tj T* 0.0261 Tc 0.2606 Tw (augmentation de diamètre. Ces deux dysfonctionnements engendrent des débordements)Tj T* 0.0031 Tc 0.0307 Tw (normalement captés par le fossé rue du Boulay, mais qui actuellement aggravent les inondations)Tj T* 0 Tc 0 Tw (d’un secteur déjà bien problématique.)Tj 2.94 -4 TD 0.0092 Tc 0.0912 Tw [(Il est intéressant )7(de noter que la présence de ces zones tampons involontaires diminue)]TJ -2.94 -1 TD 0.0053 Tc 0.0531 Tw (fortement les débits à l’exutoire. On obtient un débit actuel, avec mise en charge, de 1,52 m3/s)Tj T* 0.0234 Tc 0.2341 Tw (contre 4,36 m3/s en théorie. Il est important d’assimiler le fait que les diverses zones)Tj T* 0.0184 Tc 0.184 Tw (problématiques entraînent des dysfonctionnements nombreux mais moins conséquents. En)Tj T* 0.0215 Tc 0.2147 Tw (revanche, la réfection seule des réseaux amont entraînerait des dysfonctionnements plus)Tj T* 0 Tc 0.0002 Tw (importants et donc plus néfastes pour les secteurs urbains aval.)Tj 2.96 -3 TD 0.0006 Tc 0.0064 Tw (Afin de vérifier nos calculs et nos interprétations, nous avons confronté ces résultats à une)Tj -2.96 -1 TD 0 Tc 0.0001 Tw (enquête de terrain et demandé confirmation aux services techniques communaux.)Tj ET endstream endobj 62 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT6 6 0 R /TT10 13 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 64 0 obj << /Length 3413 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 18)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 60.961 734.179 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 737.7791 Tm 0 g 0 Tw (3 – R)Tj 10.8 0 0 10.8 135.121 737.7791 Tm (ESULTATS DE L)Tj 13.92 0 0 13.92 216.241 737.7791 Tm (’)Tj 10.8 0 0 10.8 220.8765 737.7791 Tm 0.0005 Tw (ENQUETE DE TERRAIN)Tj ET 60.961 733.699 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 696.979 Tm 0.012 Tc 0.1201 Tw (L’enquête auprès des riverains et services techniques communaux valide les résultats)Tj -2.94 -1 TD 0 Tc 0 Tw (obtenus. Des débordements sont régulièrement observés au niveau de la Graholière et du Boulay.)Tj 2.96 -2 TD 0.0076 Tc 0.076 Tw (L’insuffisance globale du réseau étant relativement importante, les dysfonctionnements)Tj -2.96 -1 TD 0 Tc 0.0003 Tw (sur le versant sont observés pour des fréquences quasi-annuelles.)Tj ET 0.898 0.949 1 rg 60.961 597.619 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 601.219 Tm 0 g 0 Tw (4 – A)Tj 10.8 0 0 10.8 135.121 601.219 Tm 0.0001 Tc 0.0005 Tw (UTRES FACTEURS DE DYSFONCTIONNEMENT)Tj ET 60.961 597.139 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 560.4191 Tm 0.0018 Tc 0.0179 Tw (Un des problèmes rencontré est le colmatage de certains tronçons qui peut avoir plusieurs)Tj -2.94 -1 TD 0 Tc 0 Tw (raisons :)Tj /TT12 1 Tf 1.5 -2 TD (•)Tj /TT14 1 Tf 0.5425 0 TD ( )Tj /TT4 1 Tf 0.9575 0 TD 0.0077 Tc 0.0767 Tw (Réseau à faibles pentes)Tj /TT6 1 Tf 9.98 0 TD 0.0084 Tc 0.0844 Tw [( : Ce problème est rencontré en divers points limitant ainsi les)]TJ ET 98.401 522.979 119.76 0.72 re f BT 12 0 0 12 98.401 512.4191 Tm 0.0025 Tc 0.0253 Tw (vitesses d’écoulement de l’eau et favorisant les dépôts des particules les plus importantes)Tj 0 -1 TD 0.0029 Tc 0.0295 Tw (lors des faibles pluies. Les sédiments demandant alors des vitesses plus élevées pour être)Tj T* 0.0109 Tc 0.1086 Tw (mobilisés, ils constituent ensuite des réductions artificielles de ces réseaux déjà sous-)Tj T* 0 Tc 0.0002 Tw (dimensionnés et accentuent la fréquence des dysfonctionnements.)Tj /TT12 1 Tf -1.5 -2 TD 0 Tw (•)Tj /TT14 1 Tf 0.5281 0 TD ( )Tj /TT4 1 Tf 0.9719 0 TD 0.0062 Tc 0.0622 Tw [(Apports de graviers et éléments fins \(sables )62.2(…\))]TJ /TT6 1 Tf 19.96 0 TD 0.0631 Tw [( )-60.6(par les versants amont ruraux \(érosion)]TJ ET 98.401 450.979 239.52 0.72 re f BT 12 0 0 12 98.401 440.419 Tm 0 Tc 0 Tw (des sols\).)Tj /TT12 1 Tf -1.5 -2 TD (•)Tj /TT14 1 Tf 0.5027 0 TD ( )Tj /TT4 1 Tf 0.9973 0 TD 0.0054 Tc 0.0542 Tw (Apports de débris végétaux)Tj /TT6 1 Tf 11.3859 0 TD 0.0039 Tc 0.0388 Tw [( )38.8(: Cet apport est également dû à la présence des vignes. Lors)]TJ ET 98.401 414.979 135.36 0.72 re f BT 12 0 0 12 98.401 404.419 Tm 0.0037 Tc 0.0369 Tw (d’intempéries, les feuilles de vignes transitent jusqu’au réseau d’eau pluviale par le biais)Tj 0 -1 TD 0 Tc 0 Tw (du ruissellement de l’eau.)Tj -1.5 -3 TD 0.0027 Tc 0.0268 Tw (En plus de tous les dysfonctionnements hydrauliques décrits précédemment, il faut noter que)Tj -1.5 -1 TD 0 Tc 0.0002 Tw (l’état des réseaux est un facteur loin d’être négligeable.)Tj ET endstream endobj 65 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT12 55 0 R /TT14 56 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 67 0 obj << /Length 2642 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 19)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 57.121 720.499 480.72 13.2 re f 0 g 55.681 733.699 0.48 1.44 re f 55.681 734.659 1.44 0.48 re f 56.641 733.699 0.48 0.48 re f 57.121 734.659 480.72 0.48 re f 57.121 733.699 480.72 0.48 re f 538.801 733.699 0.48 1.44 re f 537.841 734.659 1.44 0.48 re f 537.841 733.699 0.48 0.48 re f 55.681 720.499 0.48 13.2 re f 56.641 720.499 0.48 13.2 re f 538.801 720.499 0.48 13.2 re f 537.841 720.499 0.48 13.2 re f 0.898 0.949 1 rg 57.121 708.499 480.72 12 re f BT /TT4 1 Tf 15.84 0 0 15.84 210.001 710.899 Tm 0 g 0 Tw (C –S)Tj 12.96 0 0 12.96 241.2556 710.899 Tm 0.0001 Tc 0.0008 Tw (OLUTIONS PROPOSEES)Tj ET 55.681 708.499 0.48 12 re f 56.641 708.499 0.48 12 re f 538.801 708.499 0.48 12 re f 537.841 708.499 0.48 12 re f 0.898 0.949 1 rg 57.121 695.539 480.72 12.96 re f 0 g 55.681 694.099 0.48 1.44 re f 55.681 694.099 1.44 0.48 re f 56.641 695.059 0.48 0.48 re f 57.121 694.099 480.72 0.48 re f 57.121 695.059 480.72 0.48 re f 538.801 694.099 0.48 1.44 re f 537.841 694.099 1.44 0.48 re f 537.841 695.059 0.48 0.48 re f 55.681 695.539 0.48 12.96 re f 56.641 695.539 0.48 12.96 re f 538.801 695.539 0.48 12.96 re f 537.841 695.539 0.48 12.96 re f BT /TT8 1 Tf 13.92 0 0 13.92 147.361 648.499 Tm 0 Tc 0.0004 Tw (1 – Choix des options)Tj 0 -3.4483 TD (2 – Propositions de travaux)Tj /TT6 1 Tf 3.069 -2.5862 TD 0.0001 Tw (2.1 – Déviation du versant amont du Village Joli)Tj T* 0.0183 Tc 0.1825 Tw [(2.2 – Création d’une traversée de route au lieu-dit « )182.5(La)]TJ 0 -0.8621 TD 0.0071 Tc 0.071 Tw [(Petite Courbe )71(», recalibrage du principal fossé collecteur et)]TJ T* 0 Tc 0 Tw (remblaiement du TN)Tj 0 -2.5862 TD 0.034 Tc 0.3398 Tw [(2.3 – Création des bassins de rétention amont « )339.8(La)]TJ 0 -0.8621 TD 0 Tc 0 Tw (Graholière »)Tj /TT10 1 Tf 3.5345 -1.7241 TD (a – Choix de la période de retour)Tj 0.0172 -1.7241 TD (b – Choix du débit de fuite)Tj -0.0172 -1.7241 TD (c – Calcul du volume de rétention)Tj T* (d – Option de traitement)Tj /TT6 1 Tf -3.5345 -2.5862 TD 0.0001 Tw [(2.4 – )-8.5(Redimensionnement des réseaux)]TJ /TT10 1 Tf 3.5345 -1.7241 TD 0.0002 Tw (a – Modifications à réaliser)Tj T* 0.0003 Tw (b – Débits générés après redimensionnement)Tj /TT8 1 Tf -6.6034 -3.4483 TD (3 – Phasage des travaux et estimatif financier)Tj ET endstream endobj 68 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R /TT10 13 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 70 0 obj << /Length 453 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 20)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 62.401 737.539 Tm 0 Tw (Carte travaux A0)Tj ET endstream endobj 71 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT6 6 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 73 0 obj << /Length 5716 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 21)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 57.121 732.499 480.72 13.2 re f 0 g 55.681 745.699 0.48 1.44 re f 55.681 746.659 1.44 0.48 re f 56.641 745.699 0.48 0.48 re f 57.121 746.659 480.72 0.48 re f 57.121 745.699 480.72 0.48 re f 538.801 745.699 0.48 1.44 re f 537.841 746.659 1.44 0.48 re f 537.841 745.699 0.48 0.48 re f 55.681 732.499 0.48 13.2 re f 56.641 732.499 0.48 13.2 re f 538.801 732.499 0.48 13.2 re f 537.841 732.499 0.48 13.2 re f 0.898 0.949 1 rg 57.121 720.499 480.72 12 re f BT /TT4 1 Tf 13.92 0 0 13.92 220.321 722.899 Tm 0 g 0 Tw (C – S)Tj 10.8 0 0 10.8 254.7472 722.899 Tm 0.0001 Tc 0.0008 Tw (OLUTIONS PROPOSEES)Tj ET 55.681 720.499 0.48 12 re f 56.641 720.499 0.48 12 re f 538.801 720.499 0.48 12 re f 537.841 720.499 0.48 12 re f 0.898 0.949 1 rg 57.121 707.539 480.72 12.96 re f 0 g 55.681 706.099 0.48 1.44 re f 55.681 706.099 1.44 0.48 re f 56.641 707.059 0.48 0.48 re f 57.121 706.099 480.72 0.48 re f 57.121 707.059 480.72 0.48 re f 538.801 706.099 0.48 1.44 re f 537.841 706.099 1.44 0.48 re f 537.841 707.059 0.48 0.48 re f 55.681 707.539 0.48 12.96 re f 56.641 707.539 0.48 12.96 re f 538.801 707.539 0.48 12.96 re f 537.841 707.539 0.48 12.96 re f 0.898 0.949 1 rg 60.961 657.139 473.04 12.96 re f BT 13.92 0 0 13.92 104.881 660.739 Tm 0 g 0 Tc 0 Tw (1 – C)Tj 10.8 0 0 10.8 135.121 660.739 Tm 0.0001 Tc 0.0006 Tw (HOIX DES OPTIONS)Tj ET 60.961 656.659 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 619.939 Tm 0.0039 Tc 0.0395 Tw (Le système de collecte des eaux pluviales étudié peut être scindé en deux secteurs types.)Tj -2.94 -1 TD 0.002 Tc 0.0196 Tw (En effet, nous pouvons distinguer un secteur plutôt rural, composé essentiellement d’un maillage)Tj T* 0.0052 Tc 0.0516 Tw (de fossés collecteurs, et un secteur urbain collecté par buses enterrées. Ces deux configurations)Tj T* 0.0136 Tc 0.1365 Tw (différentes imposent chacune des contraintes particulières dans le cadre d’une recherche de)Tj T* 0 Tc 0.0002 Tw (solutions visant à réduire les dysfonctionnements constatés.)Tj 2.94 -2 TD 0.0028 Tc 0.0278 Tw (Ainsi, dans un cadre urbain, nous nous attacherons à proposer les travaux les plus limités)Tj -2.94 -1 TD 0.0082 Tc 0.0818 Tw (afin de restreindre les ouvertures de voiries. De plus, le dimensionnement de ces propositions)Tj T* 0 Tc 0.0002 Tw (devra tenir compte des exigences de pentes minimales et de couverture des canalisations.)Tj 2.96 -2 TD 0.007 Tc 0.0702 Tw (Les propositions en milieu rural devront être calibrées pour la collecte de versants plus)Tj -2.96 -1 TD 0.0175 Tc 0.1748 Tw (importants et générant des flux hydrauliques conséquents dûs aux cultures maraîchères et)Tj T* 0 Tc 0 Tw (viticoles.)Tj 2.94 -2 TD 0.0011 Tc 0.0107 Tw (Le versant du Gué au Voyer comprend également trois zones urbanisables dans un proche)Tj -2.94 -1 TD 0.0048 Tc 0.048 Tw [(avenir. Celle située en aval immédiat de la Petite Courbe et de la Meslerie \(zone )10(NAa du PLU\))]TJ T* 0.004 Tc 0.0398 Tw (sera intégralement gérée sur le plan hydraulique grâce à la création d’un bassin de rétention. En)Tj T* 0.0027 Tc 0.0275 Tw (revanche, pour les deux autres \(NAa et Nab5\), le lotisseur aura l’obligation de ne pas augmenter)Tj T* 0.0118 Tc 0.1175 Tw (les flux d’eaux pluviales. Cependant, les flux actuels étant relativement importants \(cultures)Tj T* 0.0005 Tc 0.0048 Tw (maraîchères\), les divers aménagements ne devraient pas considérablement aggraver l’hydraulique)Tj T* 0 Tc 0 Tw (du secteur.)Tj 2.94 -3 TD 0.0001 Tw (Les solutions retenues sont principalement :)Tj /TT12 1 Tf -1.46 -2.5 TD 0 Tw (•)Tj /TT14 1 Tf 0.4738 0 TD ( )Tj /TT6 1 Tf 1.0462 0 TD 0.0014 Tc 0.0143 Tw (Orientation des eaux de la partie amont du Village Joli vers les fossés existants le long du)Tj -0.02 -1 TD 0.0226 Tc 0.226 Tw (Chemin d’exploitation n°209, afin d’éviter des redimensionnements en propriétés)Tj T* 0 Tc 0 Tw (privées ;)Tj /TT12 1 Tf -1.5 -1.5 TD (•)Tj /TT14 1 Tf 0.6813 0 TD ( )Tj /TT6 1 Tf 0.8387 0 TD 0.023 Tc 0.23 Tw (Création d’une traversée de la route du )Tj 18.3287 0 TD (Fleuve et )Tj 4.6113 0 TD 0.0178 Tc 0.1778 Tw (recalibrage de plusieurs fossés)Tj -22.96 -1 TD 0 Tc 0 Tw (collecteurs ;)Tj /TT12 1 Tf -1.5 -1.5 TD (•)Tj /TT14 1 Tf 0.5888 0 TD ( )Tj /TT6 1 Tf 0.9312 0 TD 0.0122 Tc 0.1217 Tw (Implantation d’un bassin de rétention amont \(secteur de la Graholière\) pour éviter le)Tj -0.02 -1 TD 0.0092 Tc 0.0923 Tw (transfert de flux plus importants sur le secteur urbain déjà problématique, et en même)Tj T* 0.0192 Tc 0.1923 Tw (temps gérer les futurs flux d’eaux pluviales de la zone NAa, au moins au niveau)Tj T* 0 Tc 0 Tw (hydraulique ;)Tj /TT12 1 Tf -1.5 -1.5 TD (•)Tj /TT14 1 Tf 0.6134 0 TD ( )Tj /TT6 1 Tf 0.9066 0 TD 0.015 Tc 0.1555 Tw [(Redimensionnement des deux traversées de la rue de la )5.4(Graholière )17(pour )17(pallier )23.3(a)15(u)15(x)]TJ -0.02 -1 TD 0 Tc 0.0001 Tw (dysfonctionnements actuels ;)Tj /TT12 1 Tf -1.5 -1.5 TD 0 Tw (•)Tj /TT14 1 Tf 0.4798 0 TD ( )Tj /TT6 1 Tf 1.0402 0 TD 0.0019 Tc 0.0186 Tw (Redimensionnement de la partie finale des réseaux rejoignant le carrefour de Boulay. Les)Tj -0.02 -1 TD 0 Tc 0.0001 Tw (rues ou routes concernées sont celles du Soleil Levant, des Meuniers et de la Vendée ;)Tj /TT12 1 Tf -1.5 -1.5 TD 0 Tw (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 1.06 0 TD [(Création d’un second réseau rue de Boulay en parallèle à )7.9(celui existant ;)]TJ ET endstream endobj 74 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT12 55 0 R /TT14 56 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 77 0 obj << /Length 4183 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 22)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT12 1 Tf 12 0 0 12 80.401 761.539 Tm 0 Tw (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 1.04 0 TD 0.0001 Tw (Recalibrage des fossés aval et redimensionnement de la buse « exutoire » ;)Tj /TT12 1 Tf -1.5 -1.5 TD 0 Tw (•)Tj /TT14 1 Tf 0.4882 0 TD ( )Tj /TT6 1 Tf 1.0118 0 TD 0.0028 Tc 0.0281 Tw (Redimensionnement des derniers tronçons de la rue de la Loire et déviation des flux vers)Tj 0 -1 TD 0 Tc 0 Tw (le fossé existant longeant la parcelle 207 et rejoignant l’exutoire ;)Tj /TT12 1 Tf -1.52 -1.5 TD (•)Tj /TT14 1 Tf 0.5283 0 TD ( )Tj /TT6 1 Tf 0.9917 0 TD 0.0068 Tc 0.0681 Tw (Création d’une traversée sous voirie et d’un fossé écrêteur pour le versant D \(La Basse)Tj -0.02 -1 TD 0 Tc 0 Tw (Rivière\).)Tj ET 0.898 0.949 1 rg 60.961 644.179 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 647.7791 Tm 0 g (2 – P)Tj 10.8 0 0 10.8 134.2639 647.7791 Tm 0.0005 Tw (ROPOSITIONS DE TRAVAUX)Tj ET 60.961 643.699 473.04 0.48 re f BT /TT8 1 Tf 12 0 0 12 133.201 607.219 Tm 0.0003 Tw (2.1 – Déviation du versant amont du Village Joli)Tj ET 131.761 603.139 402.24 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 578.419 Tm 0.0034 Tc 0.0338 Tw (Afin de soulager les deux traversées sous voirie au niveau de la Petite Courbe, le versant)Tj -2.94 -1 TD 0.002 Tc 0.02 Tw (BVC 1.2 sera dévié vers les fossés existants le long du chemin d’exploitation n°209. Ce transfert)Tj T* 0.0059 Tc 0.0537 Tw [(de )-16.5(flux )-16.5(permet )-16.5(aussi )-16.5(d’éviter )-16.5(des )-12.6(redimensionnements en propriétés privées \(parcelles n°284 et)]TJ T* 0 Tc 0 Tw (379\).)Tj 2.96 -1 TD 0.0091 Tc 0.0915 Tw (La réalisation de cette connection se fera par traversée de la route du Fleuve en Ø500)Tj -2.96 -1 TD 0.0065 Tc 0.0647 Tw (\(L50\). Un recalibrage des fossés sera également nécessaire et une seconde traversée sera créée)Tj T* 0.0111 Tc 0.1105 Tw (\(Chemin d’exploitation\) en Ø600 \(L8b\) pour évacuer les flux supplémentaires et soulager le)Tj T* 0 Tc 0 Tw (tronçon L8a.)Tj 2.94 -2 TD 0.0059 Tc 0.0639 Tw [(Plusieurs fossés amont des versants BVC 1.2 et 1.3 pourront être recalibrés, )17.2(voire )17.2(créés)]TJ -2.94 -1 TD 0.0043 Tc 0.0434 Tw (pour un meilleur écoulement des eaux superficielles. Dans le même but, la traversée de la route)Tj T* 0 Tc 0 Tw (de la Courbe en Ø300 étant effondrée pourra être remplacée.)Tj /TT8 1 Tf 5.9 -4 TD 0.0002 Tw (2.2 – Création d’une traversée de route au lieu-dit « La Petite Courbe »,)Tj 0 -0.98 TD 0.0004 Tw (recalibrage du principal fossé collecteur et remblaiement du TN)Tj ET 131.761 382.579 402.24 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 357.859 Tm 0.007 Tc 0.07 Tw (Une seconde traversée de la route du Fleuve )Tj 18.8052 0 TD (sera créée \(L1b-Ø500\) en )Tj 10.9492 0 TD (parallèle à )Tj 4.6056 0 TD 0 Tc (celle)Tj -37.3 -1 TD 0.0064 Tc 0.064 Tw (existante \(L1a-Ø400\). Elle permettra de supprimer les débordements sur voirie ou en limite de)Tj T* 0 Tc 0.0003 Tw (parcelles désagréables pour les riverains.)Tj 2.94 -2 TD 0.0147 Tc 0.151 Tw [(Le principal fossé collecteur \(L15\) devra être )-5.9(recalibré )7.9(pour, )7.9(d’une )7.9(part )7.9(évacuer )7.9(les)]TJ -2.94 -1 TD 0.0073 Tc 0.073 Tw (nouveaux flux afférents et d’autre part accepter la remontée du niveau d’eau provoquée par la)Tj T* 0.0019 Tc 0.0194 Tw (mise en charge du bassin de rétention aval. Le bord du fossé, donc le TN \(Terrain Naturel\) devra)Tj T* 0.0031 Tc 0.0305 Tw (être égal au minimum à la hauteur d’eau centennale dans le bassin de rétention. Nos simulations)Tj T* 0.0083 Tc 0.0829 Tw (donnent un niveau d’eau maximum dans le bassin à 14,30 mAN, le TN sera donc remblayé à)Tj T* 0.0137 Tc 0.1373 Tw (cette même hauteur pour éviter les risques d’inondations. Le volume de remblai, d’environ)Tj T* 0 Tc 0.0001 Tw (1000 m3, pourra provenir du terrassement du bassin de rétention.)Tj ET endstream endobj 78 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R /TT12 55 0 R /TT14 56 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 80 0 obj << /Length 3940 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 23)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT8 1 Tf 12 0 0 12 133.201 737.7791 Tm 0.0002 Tw (2.3 – Création du bassin de rétention amont « La Graholière »)Tj ET 131.761 733.699 402.24 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.921 701.7791 Tm 0.0001 Tw (Ce bassin de rétention est nécessaire pour deux principales raisons :)Tj /TT12 1 Tf 1.76 -1.66 TD 0 Tw (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 0.74 0 TD 0.0002 Tw (Limiter le redimensionnement des réseaux aval sous voirie.)Tj /TT12 1 Tf -1.2 -1.66 TD 0 Tw (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 0.74 0 TD (Stocker les futurs flux de la zone amont NAa amenée à être plus urbanisée. Pour se)Tj -1.2 -1.14 TD 0.0102 Tc 0.1026 Tw [(faire, une traversée de la route du Soleil Levant \(Ø600-L111\) devra )10.5(être créée au)]TJ 0 -1.16 TD 0 Tc 0 Tw (niveau de la parcelle 11.)Tj -1.78 -2.06 TD 0.0105 Tc 0.1054 Tw (La solution la plus intéressante serait de placer le bassin le plus en aval possible afin)Tj -2.94 -1 TD 0.0169 Tc 0.1695 Tw (d’inclure la majeure partie du versant rural. L’implantation se ferait probablement sur les)Tj T* 0 Tc 0 Tw (parcelles n°223 et 225.)Tj 2.94 -2 TD 0.0135 Tc 0.1351 Tw (Le dimensionnement de ce bassin permettra également une décantation naturelle des)Tj -2.94 -1 TD 0.0019 Tc 0.019 Tw (particules en suspension les plus fines. Cet aspect n’est pas négligeable compte tenu du caractère)Tj T* 0.0052 Tc 0.0525 Tw (rural des versants constatés. Ainsi, les réseaux aval à ce bassin de rétention seront protégés des)Tj T* 0 Tc 0.0003 Tw (risques d’encombrements par les débris charriés par les eaux pluviales.)Tj /TT4 1 Tf 9.46 -3 TD 0.0002 Tw (a - Choix de la période de retour)Tj ET 175.921 488.179 160.32 0.72 re f BT /TT6 1 Tf 12 0 0 12 97.681 465.619 Tm 0.0058 Tc 0.0577 Tw (La détermination du volume d’eau à stocker va être faite grâce à la méthode des pluies,)Tj -2.94 -1 TD 0.0005 Tc 0.0047 Tw (conformément à la circulaire 77-284 avec néanmoins confirmation par le logiciel XP SWMM des)Tj T* 0 Tc 0 Tw (volumes calculés.)Tj 2.96 -2 TD 0.0012 Tc 0.0122 Tw (Du fait de la sensibilité des réseaux aval et de l’existence de zones urbaines proches, nous)Tj -2.96 -1 TD 0.0003 Tc 0.0032 Tw (proposons un dimensionnement du bassin pour des pluies de période de retour d’au moins 50 ans.)Tj T* 0 Tc 0.0002 Tw (De plus la revanche devra permettre de tamponner des pluies centennales.)Tj /TT4 1 Tf 9.46 -3 TD (b - Choix du débit de fuite)Tj ET 175.921 356.179 128.64 0.72 re f BT /TT6 1 Tf 12 0 0 12 97.921 333.619 Tm 0.0229 Tc 0.2289 Tw (Le débit de fuite sera établi en fonction des capacités du réseau aval, sans sur-)Tj -2.96 -1 TD 0 Tc 0.0001 Tw (dimensionner le volume de rétention du bassin à créer. Nous proposons donc :)Tj /TT12 1 Tf 9.72 -1 TD 0 Tw (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 1.04 0 TD (200 l/s en décennal)Tj /TT12 1 Tf -1.5 -1 TD (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 1.04 0 TD 0.0004 Tw (250 l/s en cinquantennal)Tj /TT12 1 Tf -1.5 -1 TD 0 Tw (•)Tj /TT14 1 Tf 0.46 0 TD ( )Tj /TT6 1 Tf 1.04 0 TD (280 l/s en centennal)Tj -8.26 -2 TD 0.0074 Tc 0.0742 Tw (Il est à noter que ces débits resteront nettement inférieurs au débit de pointe actuel des)Tj -2.96 -1 TD 0.0021 Tc 0.0208 Tw (versants concernés. On passera de 1,40 m3/s à 0,200 m3/s pour des pluies décennales. Le débit à)Tj T* 0 Tc 0.0002 Tw (transmettre sans ce bassin serait de 1,94 m3/s avec les réfections des réseaux amont.)Tj 2.94 -2 TD 0.0055 Tc 0.0545 Tw (En fond de bassin, la pose d’un caniveau en béton permettra l’écoulement des eaux lors)Tj -2.94 -1 TD 0 Tc 0.0002 Tw (des pluies de faibles intensités.)Tj ET endstream endobj 81 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R /TT12 55 0 R /TT14 56 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 83 0 obj << /Length 11488 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 24)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT4 1 Tf 12 0 0 12 175.921 749.539 Tm 0.0002 Tw (c - Calcul du volume de rétention)Tj ET 175.921 748.099 164.64 0.72 re f BT /TT6 1 Tf 12 0 0 12 97.921 725.539 Tm 0.0055 Tc 0.0552 Tw (La méthode des pluies considère pour une durée de pluie, le volume ruisselé, le volume)Tj -2.96 -1 TD 0.0038 Tc 0.0385 Tw (évacué par le débit de fuite et leur différence qui correspond au volume de rétention. Ce point a)Tj T* 0.0076 Tc 0.0763 Tw (été calculé en considérant des pluies décennales à centennales. Il est à noter que la surface de)Tj T* 0 Tc 0.0001 Tw (collecte prise en compte est de 48 ha correspondant aux versants BVC 1 et BVC pro 3.1a.)Tj /TT4 1 Tf 6.1 -2 TD 0.0002 Tw (Volume stocké dans le bassin de rétention en fonction de la durée)Tj ET 135.601 664.099 323.76 0.72 re f BT 12 0 0 12 226.321 653.5391 Tm (et de la fréquence de la pluie)Tj ET 226.321 652.099 142.08 0.72 re f BT /TT8 1 Tf 12 0 0 12 66.961 629.059 Tm 0.0001 Tc 0.002 Tw (Pluie cinquantennale considérée)Tj ET 0.851 g 239.761 614.659 84.72 24 re f BT /TT6 1 Tf 12 0 0 12 250.801 629.059 Tm 0 g 0 Tc 0 Tw (Débit moyen)Tj ET 0.851 g 243.121 614.659 78.24 12 re f BT 12 0 0 12 266.401 617.059 Tm 0 g (\(m3/s\))Tj ET 239.281 638.659 290.16 0.48 re f 239.281 614.659 0.48 24 re f 324.481 614.659 0.48 24 re f 388.321 614.659 0.48 24 re f 452.161 614.659 0.48 24 re f 528.961 614.659 0.48 24 re f 0.851 g 59.041 602.179 59.76 12 re f 62.401 602.179 53.28 12 re f BT 12 0 0 12 74.401 604.579 Tm 0 g (Durée)Tj ET 0.851 g 119.281 602.179 59.76 12 re f 122.641 602.179 53.28 12 re f BT 12 0 0 12 129.841 604.579 Tm 0 g (Hauteur)Tj ET 0.851 g 179.521 602.179 59.76 12 re f 182.881 602.179 53.28 12 re f BT 12 0 0 12 188.881 604.579 Tm 0 g (Intensité)Tj ET 0.851 g 239.761 602.179 42.24 12 re f 243.121 602.179 35.76 12 re f BT 12 0 0 12 246.481 604.579 Tm 0 g (actuel)Tj ET 0.851 g 282.481 602.179 42 12 re f 285.601 602.179 35.76 12 re f BT 12 0 0 12 291.601 604.579 Tm 0 g (futur)Tj ET 0.851 g 324.961 602.179 63.36 36.48 re f BT 12 0 0 12 337.441 623.059 Tm 0 g (Volume)Tj ET 0.851 g 328.321 608.659 56.88 12 re f BT 12 0 0 12 340.081 611.059 Tm 0 g (évacué)Tj ET 0.851 g 388.801 602.179 63.36 36.48 re f BT 12 0 0 12 401.041 623.059 Tm 0 g (Volume)Tj ET 0.851 g 391.921 608.659 56.88 12 re f BT 12 0 0 12 396.721 611.059 Tm 0 g (tamponné)Tj ET 0.851 g 452.641 602.179 76.32 36.48 re f BT 12 0 0 12 460.801 623.059 Tm 0 g (Variation de)Tj ET 0.851 g 455.761 608.659 69.84 12 re f BT 12 0 0 12 458.641 611.059 Tm 0 g (ruissellement)Tj ET 58.321 614.179 266.64 0.48 re f 388.321 614.179 0.48 0.48 re f 452.161 614.179 0.48 0.48 re f 528.961 614.179 0.48 0.48 re f 58.561 601.939 0.48 12.24 re f 118.801 601.939 0.48 12.24 re f 179.041 601.939 0.48 12.24 re f 239.281 601.939 0.48 12.24 re f 282.001 601.939 0.48 12.24 re f 324.481 601.939 0.48 12.24 re f 388.321 601.939 0.48 12.24 re f 452.161 601.939 0.48 12.24 re f 528.961 601.939 0.48 12.24 re f BT 10.8 0 0 10.8 75.361 591.859 Tm [(0,00 h)-3188.9(0)0( mm)-2494.3(0,0 mm/h)-1966.5(0,00)-2183.3(0,00)-3072.2(0 m3)-3861.1(0 m3)-6705.5(0 m3)]TJ ET 58.561 601.459 470.88 0.48 re f 58.561 589.459 0.48 12 re f 118.801 589.459 0.48 12 re f 179.041 589.459 0.48 12 re f 239.281 589.459 0.48 12 re f 282.001 589.459 0.48 12 re f 324.481 589.459 0.48 12 re f 388.321 589.459 0.48 12 re f 452.161 589.459 0.48 12 re f 528.961 589.459 0.48 12 re f BT 10.8 0 0 10.8 75.361 579.379 Tm [(0,25 h)-2566.7(19,6 mm)-1622.1(78,4 mm/h)-1710.9(7,21)-2183.3(7,53)-2561.1(194 m3)-2483.3(6 580 m3)-3755.5(-6 298 m3)]TJ ET 58.561 588.979 470.88 0.48 re f 58.561 576.979 0.48 12 re f 118.801 576.979 0.48 12 re f 179.041 576.979 0.48 12 re f 239.281 576.979 0.48 12 re f 282.001 576.979 0.48 12 re f 324.481 576.979 0.48 12 re f 388.321 576.979 0.48 12 re f 452.161 576.979 0.48 12 re f 528.961 576.979 0.48 12 re f BT 10.8 0 0 10.8 75.361 566.899 Tm [(0,50 h)-2566.7(26,7 mm)-1622.1(53,4 mm/h)-1710.9(4,91)-2183.3(5,13)-2561.1(419 m3)-2483.3(8 809 m3)-3755.5(-8 425 m3)]TJ ET 58.561 576.499 470.88 0.48 re f 58.561 564.499 0.48 12 re f 118.801 564.499 0.48 12 re f 179.041 564.499 0.48 12 re f 239.281 564.499 0.48 12 re f 282.001 564.499 0.48 12 re f 324.481 564.499 0.48 12 re f 388.321 564.499 0.48 12 re f 452.161 564.499 0.48 12 re f 528.961 564.499 0.48 12 re f BT 10.8 0 0 10.8 75.361 554.4191 Tm [(1,00 h)-2566.7(36,3 mm)-1622.1(36,3 mm/h)-1710.9(3,34)-2183.3(3,49)-2561.1(869 m3)-2238.8(11 677 m3)-3011.1(-11 154 m3)]TJ ET 58.561 564.019 470.88 0.48 re f 58.561 552.019 0.48 12 re f 118.801 552.019 0.48 12 re f 179.041 552.019 0.48 12 re f 239.281 552.019 0.48 12 re f 282.001 552.019 0.48 12 re f 324.481 552.019 0.48 12 re f 388.321 552.019 0.48 12 re f 452.161 552.019 0.48 12 re f 528.961 552.019 0.48 12 re f BT 10.8 0 0 10.8 75.361 541.939 Tm [(2,00 h)-2566.7(41,5 mm)-1622.1(20,8 mm/h)-1710.9(1,91)-2183.3(1,99)-2183.3(1 769 m3)-1866.6(12 574 m3)-3011.1(-11 976 m3)]TJ ET 58.561 551.539 470.88 0.48 re f 58.561 539.539 0.48 12 re f 118.801 539.539 0.48 12 re f 179.041 539.539 0.48 12 re f 239.281 539.539 0.48 12 re f 282.001 539.539 0.48 12 re f 324.481 539.539 0.48 12 re f 388.321 539.539 0.48 12 re f 452.161 539.539 0.48 12 re f 528.961 539.539 0.48 12 re f BT 10.8 0 0 10.8 75.361 529.459 Tm [(3,00 h)-2566.7(47,3 mm)-1622.1(15,8 mm/h)-1710.9(1,45)-2183.3(1,51)-2183.3(2 669 m3)]TJ /TT8 1 Tf 29.7778 0 TD (13 678 m3)Tj /TT6 1 Tf 7.3111 0 TD (-12 997 m3)Tj ET 58.561 539.059 470.88 0.48 re f 58.561 527.059 0.48 12 re f 118.801 527.059 0.48 12 re f 179.041 527.059 0.48 12 re f 239.281 527.059 0.48 12 re f 282.001 527.059 0.48 12 re f 324.481 527.059 0.48 12 re f 388.321 527.059 0.48 12 re f 452.161 527.059 0.48 12 re f 528.961 527.059 0.48 12 re f BT 10.8 0 0 10.8 75.361 516.979 Tm [(6,00 h)-2566.7(47,5 mm)-1866.6(7,9 mm/h)-1966.5(0,73)-2183.3(0,76)-2183.3(5 369 m3)-1866.6(11 048 m3)-3011.1(-10 364 m3)]TJ ET 58.561 526.579 470.88 0.48 re f 58.561 514.579 0.48 12 re f 118.801 514.579 0.48 12 re f 179.041 514.579 0.48 12 re f 239.281 514.579 0.48 12 re f 282.001 514.579 0.48 12 re f 324.481 514.579 0.48 12 re f 388.321 514.579 0.48 12 re f 452.161 514.579 0.48 12 re f 528.961 514.579 0.48 12 re f BT 10.8 0 0 10.8 75.361 504.499 Tm [(9,00 h)-2566.7(52,6 mm)-1866.6(5,8 mm/h)-1966.5(0,54)-2183.3(0,56)-2183.3(8 069 m3)-1866.6(10 110 m3)-3499.9(-9 353 m3)]TJ ET 58.561 514.099 470.88 0.48 re f 58.561 502.099 0.48 12 re f 118.801 502.099 0.48 12 re f 179.041 502.099 0.48 12 re f 239.281 502.099 0.48 12 re f 282.001 502.099 0.48 12 re f 324.481 502.099 0.48 12 re f 388.321 502.099 0.48 12 re f 452.161 502.099 0.48 12 re f 528.961 502.099 0.48 12 re f BT 10.8 0 0 10.8 72.721 492.019 Tm [(12,00 h)-2311.1(57,7 mm)-1866.6(4,8 mm/h)-1966.5(0,44)-2183.3(0,46)-1938.9(10 769 m3)-1855.5(9 173 m3)-3755.5(-8 342 m3)]TJ ET 58.561 501.619 470.88 0.48 re f 58.561 489.619 0.48 12 re f 118.801 489.619 0.48 12 re f 179.041 489.619 0.48 12 re f 239.281 489.619 0.48 12 re f 282.001 489.619 0.48 12 re f 324.481 489.619 0.48 12 re f 388.321 489.619 0.48 12 re f 452.161 489.619 0.48 12 re f 528.961 489.619 0.48 12 re f BT 10.8 0 0 10.8 72.721 479.539 Tm [(24,00 h)-2311.1(73,6 mm)-1866.6(3,1 mm/h)-1966.5(0,28)-2183.3(0,29)-1938.9(21 569 m3)-1855.5(3 868 m3)-3755.5(-2 808 m3)]TJ ET 58.561 489.139 470.88 0.48 re f 58.561 477.139 0.48 12 re f 118.801 477.139 0.48 12 re f 179.041 477.139 0.48 12 re f 239.281 477.139 0.48 12 re f 282.001 477.139 0.48 12 re f 324.481 477.139 0.48 12 re f 388.321 477.139 0.48 12 re f 452.161 477.139 0.48 12 re f 528.961 477.139 0.48 12 re f BT 10.8 0 0 10.8 72.721 467.059 Tm [(48,00 h)-2311.1(88,6 mm)-1866.6(1,8 mm/h)-1966.5(0,17)-2183.3(0,18)-1938.9(30 620 m3)-2744.4(0 m3)-4949.9(1 276 m3)]TJ ET 58.561 476.659 470.88 0.48 re f 58.561 464.659 0.48 12 re f 118.801 464.659 0.48 12 re f 179.041 464.659 0.48 12 re f 239.281 464.659 0.48 12 re f 282.001 464.659 0.48 12 re f 324.481 464.659 0.48 12 re f 388.321 464.659 0.48 12 re f 452.161 464.659 0.48 12 re f 528.961 464.659 0.48 12 re f BT 10.8 0 0 10.8 72.721 454.579 Tm [(96,00 h)-2044.4(113,8 mm)-1633.2(1,2 mm/h)-1966.5(0,11)-2183.3(0,11)-1938.9(39 329 m3)-2744.4(0 m3)-4949.9(1 639 m3)]TJ ET 58.561 464.179 470.88 0.48 re f 58.561 451.459 0.48 12.72 re f 59.041 451.459 59.76 0.48 re f 118.801 451.459 0.48 12.72 re f 119.281 451.459 59.76 0.48 re f 179.041 451.459 0.48 12.72 re f 179.521 451.459 59.76 0.48 re f 239.281 451.459 0.48 12.72 re f 239.761 451.459 42.24 0.48 re f 282.001 451.459 0.48 12.72 re f 282.481 451.459 42 0.48 re f 324.481 451.459 0.48 12.72 re f 324.961 451.459 63.36 0.48 re f 388.321 451.459 0.48 12.72 re f 388.801 451.459 63.36 0.48 re f 452.161 451.459 0.48 12.72 re f 452.641 451.459 76.32 0.48 re f 528.961 451.459 0.48 12.72 re f BT 12 0 0 12 97.681 429.859 Tm (On obtient donc un volume de rétention de 14 000 m3 pour une pluie cinquantennale.)Tj 0.02 -2 TD 0.0097 Tc 0.0975 Tw (Le volume de rétention pour un événement pluvieux centennal est de 15 850 m3. Les)Tj -2.96 -1 TD 0 Tc 0.0002 Tw (simulations du logiciel XP-SWMM donnent le même volume de rétention.)Tj 2.94 -2 TD 0.0059 Tc 0.0586 Tw (Les résultats des deux méthodes étant concordants, le volume final à tamponner sera de)Tj -2.94 -1 TD 0 Tc 0 Tw (16 000 m3 en centennal.)Tj 0 -2 TD (Tableau de résultats :)Tj ET 62.401 332.419 102.24 0.48 re f 0.851 g 184.321 306.979 98.64 24 re f BT 12 0 0 12 192.241 321.379 Tm 0 g (Période de retour)Tj ET 0.851 g 187.441 306.979 92.4 12 re f BT 12 0 0 12 208.561 309.3791 Tm 0 g (de la pluie)Tj ET 0.851 g 283.441 306.979 127.2 24 re f BT 12 0 0 12 315.601 321.379 Tm 0 g (Volume utile)Tj ET 0.851 g 286.801 306.979 120.72 12 re f BT 12 0 0 12 317.281 309.3791 Tm 0 g (à tamponner)Tj ET 183.841 330.979 227.28 0.48 re f 183.841 306.979 0.48 24 re f 282.961 306.979 0.48 24 re f 410.641 306.979 0.48 24 re f BT 12 0 0 12 217.921 296.899 Tm [(10 ans)-6297(9 500 m3)]TJ ET 183.841 306.499 227.28 0.48 re f 183.841 294.499 0.48 12 re f 282.961 294.499 0.48 12 re f 410.641 294.499 0.48 12 re f BT 12 0 0 12 217.921 284.4191 Tm [(20 ans)-6037(11 000 m3)]TJ ET 183.841 294.019 227.28 0.48 re f 183.841 282.019 0.48 12 re f 282.961 282.019 0.48 12 re f 410.641 282.019 0.48 12 re f BT 12 0 0 12 217.921 271.9391 Tm [(50 ans)-6037(14 000 m3)]TJ ET 183.841 281.539 227.28 0.48 re f 183.841 269.539 0.48 12 re f 282.961 269.539 0.48 12 re f 410.641 269.539 0.48 12 re f BT 12 0 0 12 215.041 259.459 Tm [(100 ans)-5777(16 000 m3)]TJ ET 183.841 269.059 227.28 0.48 re f 183.841 256.579 0.48 12.48 re f 184.321 256.579 98.64 0.48 re f 282.961 256.579 0.48 12.48 re f 283.441 256.579 127.2 0.48 re f 410.641 256.579 0.48 12.48 re f BT 12 0 0 12 97.681 234.979 Tm 0.0001 Tw (Pour simuler le bassin sur le logiciel, nous nous sommes basés sur :)Tj 1.78 -2 TD 0 Tw (Altitude crête de digue :14,30 mAN)Tj 0 -1 TD 0.0008 Tw (Altitude radier : 12,00 mAN)Tj T* 0.0005 Tw [(Ouvrage d’évacuation : Ø 300 à 12,00 )-5.7(mAN)]TJ T* 0.0008 Tw (Niveau de crue centennale : 14,30 mAN)Tj T* 0 Tw (Niveau de crue cinquantennal : 13,90 mAN)Tj T* [(Niveau du trop-plein : Ø400 à 13,90 )-5.1(mAN)]TJ T* (Surface en gueule : environ 8 000 m2)Tj T* 0.0002 Tw (Parements intérieurs : 1/2,5)Tj ET endstream endobj 84 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 86 0 obj << /Length 26934 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 25)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT4 1 Tf 12 0 0 12 175.921 749.539 Tm 0.0002 Tw (d- Option de traitement)Tj ET 175.921 748.099 114.96 0.72 re f BT /TT6 1 Tf 12 0 0 12 97.681 725.539 Tm 0.0103 Tc 0.1026 Tw (Pour ce bassin de rétention, la surface collectée est aussi bien rurale qu’urbaine, avec)Tj -2.94 -1 TD 0.0008 Tc 0.008 Tw [(l’urbanisation prochaine de la zone )-10.3(NAa. )21(Comme vu précédemment, le versant rural mobilise des)]TJ T* 0.0104 Tc 0.1021 Tw [(sédiments et des débris végétaux obturant les canalisations )7.3(aval, )-5.2(tandis )-5.2(que )-5.2(le )-5.2(versant )-5.2(urbain)]TJ T* 0 Tc 0.0002 Tw (apporte une pollution différente, tels que les hydrocarbures.)Tj 2.96 -2 TD 0.003 Tc 0.0296 Tw (Pour une meilleure efficacité sur les particules en suspension qui représentent 85 % de la)Tj -2.96 -1 TD 0.0043 Tc 0.0435 Tw (pollution totale véhiculée par les eaux de ruissellements, ce bassin pourra être maintenu en eau.)Tj T* 0.0036 Tc 0.0364 Tw [(Sinon, un ou plusieurs bassins dits « )36.4(pré-tampons )36.4(» pourront être prévus lors des aménagements)]TJ T* 0 Tc 0 Tw [(de la zones )-7.6(NAa.)]TJ 2.96 -2.08 TD 0.0091 Tc 0.0915 Tw (Grâce à la pose d’un ouvrage siphoïde, le bassin de rétention présentera également un)Tj -2.96 -1.02 TD 0.0042 Tc 0.0424 Tw (effet déshuileur. Cet ouvrage pourra également être muni d’une vanne obturatrice pour confiner)Tj 0 -1 TD 0.0133 Tc 0.1327 Tw (les eaux souillées en cas de pollutions accidentelles. De plus, la mise en place d’une grille)Tj T* 0 Tc 0.0002 Tw (permettra de retenir les éventuels macro-déchets.)Tj 2.96 -28.96 TD 0.0102 Tc 0.1018 Tw (Il est à noter que la solution proposée présente l’inconvénient de laisser apparaître en)Tj -2.96 -1 TD 0.0023 Tc 0.0233 Tw (surface de la lame d’eau un film d’hydrocarbures à aspect négatif dans le cadre d’aménagements)Tj T* 0.0029 Tc 0.0292 Tw (paysagers. Hors risques accidentels, il peut facilement être traité de manière passive. En effet, la)Tj T* 0.0098 Tc 0.1038 Tw [(mise en place d’une végétation rivulaire type ceinture )6.9(d’hélophytes )13.3(permet )13.3(par )13.3(adsorption )13.3(de)]TJ T* 0 Tc 0.0002 Tw (capter le film surnageant et d’accélérer la dégradation des hydrocarbures.)Tj ET /Pattern cs /P1 scn 1 i 341.041 354.979 m 341.041 443.539 l 342.001 443.539 l 342.001 445.219 l 347.761 445.219 l 347.761 357.619 l 394.561 357.619 l 394.561 354.979 l 341.041 354.979 l f* 249.601 431.059 m 249.601 445.219 l 257.281 445.219 l 257.281 443.539 l 258.241 443.539 l 258.241 431.059 l 249.601 431.059 l f* 249.601 417.619 8.64 -77.76 re f 0 G 0 J 0 j 0.96 w 10 M []0 d 340.561 446.179 m 340.561 442.579 l 337.681 446.179 m 337.681 442.579 l 333.841 446.179 m 333.841 442.579 l 329.761 446.179 m 329.761 442.579 l 325.921 446.179 m 325.921 442.579 l 322.081 446.179 m 322.081 442.579 l 318.241 446.179 m 318.241 442.579 l 314.161 446.179 m 314.161 442.579 l 311.281 446.179 m 311.281 442.579 l 307.441 446.179 m 307.441 442.579 l 303.601 446.179 m 303.601 442.579 l 299.761 446.179 m 299.761 442.579 l 295.681 446.179 m 295.681 442.579 l 291.841 446.179 m 291.841 442.579 l 288.961 446.179 m 288.961 442.579 l 285.121 446.179 m 285.121 442.579 l 281.281 446.179 m 281.281 442.579 l 277.201 446.179 m 277.201 442.579 l 273.361 446.179 m 273.361 442.579 l 269.521 446.179 m 269.521 442.579 l 266.641 446.179 m 266.641 442.579 l 262.801 446.179 m 262.801 442.579 l 258.721 446.179 m 258.721 442.579 l S 215.521 349.699 m 215.521 312.979 l 347.761 312.979 l 347.761 337.219 l 394.561 337.219 l 394.561 339.859 l 341.041 339.859 l 341.041 319.219 l 303.121 319.219 l 303.121 339.859 l 296.401 339.859 l 296.401 319.219 l 222.241 319.219 l 222.241 349.699 l 215.521 349.699 l f* 296.401 417.619 6.72 -59.04 re f 0 g 295.201 358.579 1.2 -11.76 re f 295.201 339.859 1.2 -1.92 re f 258.241 339.859 0.96 -20.64 re f /Pattern cs /P2 scn 177.601 317.539 m 177.601 288.739 l 394.561 288.739 l 394.561 337.219 l 347.761 337.219 l 347.761 312.979 l 215.521 312.979 l 215.521 317.539 l 177.601 317.539 l f* 347.761 416.659 m 367.201 434.659 l 394.561 434.659 l 394.561 357.619 l 347.761 357.619 l 347.761 416.659 l f* 0 g 177.601 325.459 m 181.441 323.779 l 186.481 327.379 l 189.361 322.819 l 194.161 320.899 l 201.841 328.099 l 207.841 325.459 l 215.521 325.459 l 215.521 317.539 l 177.601 317.539 l 177.601 325.459 l f* 179.521 353.299 m 183.361 350.419 l 185.281 351.379 l 194.161 351.379 l 197.041 350.419 l 200.881 351.379 l 204.961 351.379 l 206.881 350.419 l 211.681 351.379 l 214.561 352.339 l 216.481 351.379 l 221.281 350.419 l 223.441 351.379 l 226.321 352.339 l 228.241 351.379 l 232.081 350.419 l 234.961 351.379 l 240.721 351.379 l 242.881 350.419 l 246.721 351.379 l 249.601 351.379 l 249.601 349.699 l 246.721 349.699 l 242.881 348.739 l 240.721 349.699 l 237.841 349.699 l 234.001 348.739 l 230.161 348.739 l 228.241 349.699 l 224.401 350.419 l 222.241 349.699 l 215.521 349.699 l 209.761 348.739 l 204.961 348.739 l 201.841 349.699 l 198.001 350.419 l 195.121 350.419 l 190.321 349.699 l 183.361 349.699 l 180.481 350.419 l 179.521 349.699 l 179.521 353.299 l f* 296.401 339.379 m 304.081 339.379 l 303.121 318.739 m 342.001 318.739 l 216.001 349.699 m 216.001 312.019 l 222.721 349.699 m 222.721 318.259 l 250.081 446.179 m 250.081 430.099 l 257.761 446.179 m 257.761 442.579 l 258.721 443.539 m 258.721 430.099 l 341.521 443.539 m 341.521 356.659 l 296.401 417.139 m 304.081 417.139 l 348.241 446.179 m 348.241 356.659 l 222.241 318.739 m 259.201 318.739 l 303.601 417.619 m 303.601 357.619 l 258.721 339.859 m 258.721 318.259 l 296.881 417.619 m 296.881 357.619 l 215.521 312.499 m 348.721 312.499 l 258.241 318.739 m 297.361 318.739 l 215.521 349.219 m 223.201 349.219 l 249.601 339.379 m 259.201 339.379 l 341.041 339.379 m 395.521 339.379 l 341.041 354.499 m 395.521 354.499 l 348.241 337.219 m 348.241 312.019 l 347.761 357.139 m 395.521 357.139 l 347.761 336.739 m 395.521 336.739 l 341.521 339.859 m 341.521 336.259 l 341.521 337.219 m 341.521 318.259 l 341.521 357.619 m 341.521 354.019 l 249.601 445.699 m 258.241 445.699 l 259.681 339.859 m 259.681 318.259 l 258.241 339.379 m 260.161 339.379 l 258.241 318.739 m 260.161 318.739 l 257.761 446.179 m 257.761 442.579 l 257.761 454.099 m 257.761 339.619 l 253.441 454.579 m 264.241 454.579 l 341.521 446.179 m 341.521 442.579 l 257.281 440.419 m 259.201 440.419 l 341.521 446.179 m 341.521 442.579 l 341.521 446.179 m 341.521 445.219 l 341.041 445.699 m 348.721 445.699 l 257.281 359.779 m 259.201 359.779 l 341.521 443.539 m 341.521 442.579 l 257.281 410.899 m 259.201 410.899 l 341.521 443.539 m 341.521 442.579 l 341.521 443.539 m 341.521 442.579 l 258.241 445.699 m 342.001 445.699 l 257.281 445.699 m 259.201 445.699 l 257.281 340.099 m 259.201 340.099 l 257.281 443.059 m 259.201 443.059 l 258.241 443.059 m 342.001 443.059 l 249.601 417.139 m 259.201 417.139 l 257.281 443.059 m 259.201 443.059 l 257.761 443.539 m 257.761 442.579 l 249.601 430.579 m 259.201 430.579 l 250.081 431.059 m 250.081 416.659 l 250.081 417.619 m 250.081 338.899 l 258.721 417.619 m 258.721 338.899 l 258.721 431.059 m 258.721 416.659 l 296.401 358.099 m 304.081 358.099 l 303.601 339.859 m 303.601 318.259 l 296.881 339.859 m 296.881 318.259 l 296.881 358.579 m 296.881 345.859 l 295.681 358.579 m 295.681 345.859 l 295.201 358.099 m 297.361 358.099 l 295.201 338.419 m 297.361 338.419 l 295.201 339.379 m 297.361 339.379 l S 295.201 346.339 m 297.361 346.339 l 295.681 339.859 m 295.681 337.939 l 296.881 339.859 m 296.881 337.939 l S 249.601 367.459 m 250.561 367.459 l 250.561 366.499 l 223.201 348.739 l 222.241 348.739 l 222.241 349.699 l f 249.601 366.499 m 250.561 366.499 l 250.561 365.539 l 223.201 347.779 l 222.241 347.779 l 222.241 348.739 l f 177.601 317.059 m 216.481 317.059 l S 367.201 434.659 m 368.161 434.659 l 368.161 433.699 l 348.721 415.699 l 347.761 415.699 l 347.761 416.659 l f 367.201 434.179 m 394.561 434.179 l 259.201 349.219 m 261.361 349.219 l 262.321 349.219 m 268.081 349.219 l 269.041 349.219 m 270.961 349.219 l 271.921 349.219 m 274.801 349.219 l 275.761 349.219 m 277.681 349.219 l 278.881 349.219 m 284.641 349.219 l 285.601 349.219 m 287.521 349.219 l 288.481 349.219 m 294.241 349.219 l 295.201 349.219 m 301.201 349.219 l 302.161 349.219 m 304.081 349.219 l 305.041 349.219 m 310.801 349.219 l 311.761 349.219 m 314.641 349.219 l 314.881 349.219 m 317.761 349.219 l 318.721 349.219 m 320.641 349.219 l 321.601 349.219 m 327.361 349.219 l 328.321 349.219 m 330.241 349.219 l 331.201 349.219 m 337.201 349.219 l 338.161 349.219 m 343.921 349.219 l 344.881 349.219 m 346.801 349.219 l 347.761 349.219 m 353.761 349.219 l 354.721 349.219 m 360.481 349.219 l 361.441 349.219 m 363.361 349.219 l 364.321 349.219 m 370.081 349.219 l 371.281 349.219 m 373.201 349.219 l 374.161 349.219 m 379.921 349.219 l 380.881 349.219 m 386.641 349.219 l 387.601 349.219 m 389.761 349.219 l 390.721 349.219 m 393.601 349.219 l 322.081 435.379 m 322.081 329.059 l 337.681 435.379 m 337.681 329.059 l 321.601 426.979 m 338.161 426.979 l 321.601 417.139 m 338.161 417.139 l 321.601 406.339 m 338.161 406.339 l 321.601 396.499 m 338.161 396.499 l 321.601 385.699 m 338.161 385.699 l 321.601 375.859 m 338.161 375.859 l 321.601 366.019 m 338.161 366.019 l 321.601 356.179 m 338.161 356.179 l 321.601 345.619 m 338.161 345.619 l 321.601 335.779 m 338.161 335.779 l S 177.601 326.419 m 178.561 326.419 l 182.401 324.499 l 182.401 323.539 l 181.441 323.539 l 177.601 325.459 l f 186.481 327.379 m 187.441 327.379 l 187.441 326.419 l 182.401 323.539 l 181.441 323.539 l 181.441 324.499 l f 186.481 327.379 m 187.441 327.379 l 190.321 322.819 l 190.321 321.859 l 189.361 321.859 l 186.481 326.419 l f 189.361 322.819 m 190.321 322.819 l 195.121 320.899 l 195.121 319.939 l 194.161 319.939 l 189.361 321.859 l f 198.001 324.499 m 198.961 324.499 l 198.961 323.539 l 195.121 319.939 l 194.161 319.939 l 194.161 320.899 l f 201.841 328.099 m 202.801 328.099 l 202.801 327.139 l 198.961 323.539 l 198.001 323.539 l 198.001 324.499 l f 201.841 328.099 m 202.801 328.099 l 208.801 325.459 l 208.801 324.499 l 207.841 324.499 l 201.841 327.139 l f 207.841 324.979 m 216.481 324.979 l 180.001 353.299 m 180.001 348.739 l S 179.521 353.299 m 180.481 353.299 l 183.361 350.419 l 183.361 349.459 l 182.401 349.459 l 179.521 352.339 l f 185.281 351.379 m 186.241 351.379 l 186.241 350.419 l 183.361 349.459 l 182.401 349.459 l 182.401 350.419 l f 185.281 350.899 m 190.321 350.899 l 189.361 350.899 m 195.121 350.899 l S 194.161 351.379 m 195.121 351.379 l 198.001 350.419 l 198.001 349.459 l 197.041 349.459 l 194.161 350.419 l f 199.921 351.379 m 200.881 351.379 l 200.881 350.419 l 198.001 349.459 l 197.041 349.459 l 197.041 350.419 l f 199.921 350.899 m 204.721 350.899 l S 203.761 351.379 m 204.721 351.379 l 207.841 350.419 l 207.841 349.459 l 206.881 349.459 l 203.761 350.419 l f 211.681 351.379 m 212.641 351.379 l 212.641 350.419 l 207.841 349.459 l 206.881 349.459 l 206.881 350.419 l f 214.561 352.339 m 215.521 352.339 l 215.521 351.379 l 212.641 350.419 l 211.681 350.419 l 211.681 351.379 l f 214.561 352.339 m 215.521 352.339 l 217.441 351.379 l 217.441 350.419 l 216.481 350.419 l 214.561 351.379 l f 216.481 350.899 m 222.241 350.899 l 221.281 350.899 m 224.401 350.899 l S 226.321 352.339 m 227.281 352.339 l 227.281 351.379 l 224.401 350.419 l 223.441 350.419 l 223.441 351.379 l f 226.321 352.339 m 227.281 352.339 l 229.201 351.379 l 229.201 350.419 l 228.241 350.419 l 226.321 351.379 l f 228.241 351.379 m 229.201 351.379 l 233.041 350.419 l 233.041 349.459 l 232.081 349.459 l 228.241 350.419 l f 234.961 351.379 m 235.921 351.379 l 235.921 350.419 l 233.041 349.459 l 232.081 349.459 l 232.081 350.419 l f 234.961 350.899 m 237.841 350.899 l 236.881 350.899 m 241.681 350.899 l S 240.721 351.379 m 241.681 351.379 l 243.841 350.419 l 243.841 349.459 l 242.881 349.459 l 240.721 350.419 l f 246.721 351.379 m 247.681 351.379 l 247.681 350.419 l 243.841 349.459 l 242.881 349.459 l 242.881 350.419 l f 246.721 350.899 m 248.641 350.899 l 247.681 350.899 m 250.561 350.899 l 250.081 351.379 m 250.081 348.739 l 246.721 349.219 m 250.561 349.219 l S 246.721 349.699 m 247.681 349.699 l 247.681 348.739 l 243.841 347.779 l 242.881 347.779 l 242.881 348.739 l f 240.721 349.699 m 241.681 349.699 l 243.841 348.739 l 243.841 347.779 l 242.881 347.779 l 240.721 348.739 l f 236.881 349.219 m 241.681 349.219 l S 236.881 349.699 m 237.841 349.699 l 237.841 348.739 l 234.961 347.779 l 234.001 347.779 l 234.001 348.739 l f 230.161 348.259 m 234.961 348.259 l S 228.241 349.699 m 229.201 349.699 l 231.121 348.739 l 231.121 347.779 l 230.161 347.779 l 228.241 348.739 l f 224.401 350.419 m 225.361 350.419 l 229.201 349.699 l 229.201 348.739 l 228.241 348.739 l 224.401 349.459 l f 224.401 350.419 m 225.361 350.419 l 225.361 349.459 l 223.201 348.739 l 222.241 348.739 l 222.241 349.699 l f 215.521 349.699 m 216.481 349.699 l 216.481 348.739 l 209.761 347.779 l 208.801 347.779 l 208.801 348.739 l f 206.881 348.259 m 209.761 348.259 l 204.961 348.259 m 207.841 348.259 l S 201.841 349.699 m 202.801 349.699 l 205.921 348.739 l 205.921 347.779 l 204.961 347.779 l 201.841 348.739 l f 198.001 350.419 m 198.961 350.419 l 202.801 349.699 l 202.801 348.739 l 201.841 348.739 l 198.001 349.459 l f 194.161 349.939 m 198.961 349.939 l S 194.161 350.419 m 195.121 350.419 l 195.121 349.459 l 191.281 348.739 l 190.321 348.739 l 190.321 349.699 l f 187.441 349.219 m 191.281 349.219 l 183.361 349.219 m 188.401 349.219 l S 180.481 350.419 m 181.441 350.419 l 184.321 349.699 l 184.321 348.739 l 183.361 348.739 l 180.481 349.459 l f 180.481 350.419 m 181.441 350.419 l 181.441 349.459 l 180.481 348.739 l 179.521 348.739 l 179.521 349.699 l f q 139.681 257.539 313.2 276.24 re W n 249.601 445.699 m 251.521 445.699 l 251.041 484.579 m 251.041 445.219 l 345.841 445.699 m 347.761 445.699 l 346.321 484.579 m 346.321 445.219 l 250.561 484.099 m 346.801 484.099 l 250.561 468.979 m 346.801 468.979 l 250.561 453.619 m 346.801 453.619 l 142.561 530.659 m 450.001 530.659 l 142.561 260.659 m 450.001 260.659 l 143.041 531.139 m 143.041 260.179 l 449.521 531.139 m 449.521 260.179 l S Q BT 4.8989 0 0 4.4957 345.2464 344.2415 Tm 0 Tw (Canal d'évacuation)Tj -12.9289 -0.3735 TD (Orifice de régulation)Tj ET 236.401 362.179 m 236.401 361.219 l 236.401 362.179 m 236.401 361.219 l 234.961 361.699 m 236.881 361.699 l 235.441 362.179 m 235.441 361.219 l 235.441 362.179 m 235.441 360.259 l 235.441 361.219 m 235.441 360.259 l 235.441 361.219 m 235.441 360.259 l 235.441 361.219 m 235.441 359.299 l 235.441 360.259 m 235.441 359.299 l 235.441 360.259 m 235.441 359.299 l S 234.961 360.259 m 235.921 360.259 l 236.881 359.539 l 236.881 358.579 l 235.921 358.579 l 234.961 359.299 l f 236.401 359.539 m 236.401 358.579 l 236.401 359.539 m 236.401 358.579 l S 236.881 360.259 m 237.841 360.259 l 237.841 359.299 l 236.881 358.579 l 235.921 358.579 l 235.921 359.539 l f 237.361 360.259 m 237.361 359.299 l 237.361 360.259 m 237.361 359.299 l 237.361 361.219 m 237.361 359.299 l 237.361 361.219 m 237.361 360.259 l 235.921 360.739 m 237.841 360.739 l S 236.881 362.179 m 237.841 362.179 l 238.801 361.219 l 238.801 360.259 l 237.841 360.259 l 236.881 361.219 l f 238.321 362.179 m 238.321 361.219 l 238.321 362.179 m 238.321 361.219 l 238.321 363.139 m 238.321 361.219 l 238.321 363.139 m 238.321 362.179 l S 238.801 363.139 m 239.761 363.139 l 240.721 362.179 l 240.721 361.219 l 239.761 361.219 l 238.801 362.179 l f 238.321 363.859 m 238.321 362.899 l 238.321 363.859 m 238.321 362.899 l 238.321 363.859 m 238.321 362.899 l 238.321 363.859 m 238.321 362.899 l S 238.801 364.819 m 239.761 364.819 l 241.681 363.139 l 241.681 362.179 l 240.721 362.179 l 238.801 363.859 l f 239.761 365.779 m 240.721 365.779 l 242.881 363.139 l 242.881 362.179 l 241.921 362.179 l 239.761 364.819 l f 243.841 365.779 m 244.801 365.779 l 244.801 364.819 l 242.881 363.859 l 241.921 363.859 l 241.921 364.819 l f 244.321 365.779 m 244.321 364.819 l 242.881 365.299 m 244.801 365.299 l 243.361 365.779 m 243.361 364.819 l 243.361 365.779 m 243.361 364.819 l 241.921 365.299 m 243.841 365.299 l 242.401 365.779 m 242.401 364.819 l 242.401 365.779 m 242.401 363.859 l 242.401 364.819 m 242.401 363.859 l 241.921 364.339 m 243.841 364.339 l 243.361 364.819 m 243.361 362.899 l 243.361 363.859 m 243.361 362.899 l 242.881 363.379 m 244.801 363.379 l 244.321 364.819 m 244.321 362.899 l 244.321 364.819 m 244.321 363.859 l 244.321 364.819 m 244.321 363.859 l S BT 4.8989 0 0 4.4957 284.7882 448.8138 Tm (Caillebotis)Tj ET 262.321 320.179 m 263.281 320.179 l 263.281 319.219 l 260.161 318.259 l 259.201 318.259 l 259.201 319.219 l f 259.201 321.859 m 260.161 321.859 l 263.281 320.179 l 263.281 319.219 l 262.321 319.219 l 259.201 320.899 l f 260.401 323.299 m 263.281 323.299 l 261.841 323.779 m 261.841 322.819 l S 261.361 323.779 m 262.321 323.779 l 262.321 322.819 l 261.361 321.859 l 260.401 321.859 l 260.401 322.819 l f 260.881 322.819 m 260.881 321.859 l 260.401 322.339 m 262.321 322.339 l 261.841 322.819 m 261.841 320.899 l 261.841 321.859 m 261.841 320.899 l 261.841 321.859 m 261.841 320.899 l 261.361 321.379 m 263.281 321.379 l 262.801 322.819 m 262.801 320.899 l 262.801 322.819 m 262.801 321.859 l 262.801 322.819 m 262.801 321.859 l 262.801 323.779 m 262.801 321.859 l 262.801 323.779 m 262.801 322.819 l 260.401 324.019 m 263.281 324.019 l 261.841 325.459 m 261.841 323.539 l 260.401 324.979 m 262.321 324.979 l 260.881 325.459 m 260.881 324.499 l S 261.361 326.419 m 262.321 326.419 l 262.321 325.459 l 261.361 324.499 l 260.401 324.499 l 260.401 325.459 l f 261.841 326.419 m 261.841 325.459 l 261.361 325.939 m 263.281 325.939 l 260.401 326.899 m 263.281 326.899 l 261.841 327.379 m 261.841 326.419 l S 260.401 328.099 m 261.361 328.099 l 262.321 327.379 l 262.321 326.419 l 261.361 326.419 l 260.401 327.139 l f 260.881 328.099 m 260.881 327.139 l 260.401 327.619 m 262.321 327.619 l 261.841 328.099 m 261.841 327.139 l 261.361 327.619 m 263.281 327.619 l 261.841 330.739 m 261.841 329.059 l 261.841 330.739 m 261.841 329.779 l 261.841 330.739 m 261.841 329.779 l 261.841 330.739 m 261.841 329.779 l 260.401 330.259 m 262.321 330.259 l 260.881 330.739 m 260.881 329.059 l 260.401 329.539 m 262.321 329.539 l 261.841 330.019 m 261.841 329.059 l 261.841 330.019 m 261.841 329.059 l 261.841 330.019 m 261.841 329.059 l 261.361 329.539 m 263.281 329.539 l 262.801 330.019 m 262.801 329.059 l 262.801 330.019 m 262.801 329.059 l 262.801 330.739 m 262.801 329.059 l 262.801 330.739 m 262.801 329.779 l 262.801 330.739 m 262.801 329.779 l 260.401 333.859 m 263.281 333.859 l 261.841 334.339 m 261.841 333.379 l 260.401 333.859 m 262.321 333.859 l 260.881 335.299 m 260.881 333.379 l 260.401 334.819 m 262.321 334.819 l 261.841 335.299 m 261.841 334.339 l 261.361 334.819 m 263.281 334.819 l 261.841 336.259 m 261.841 334.339 l 260.401 335.779 m 262.321 335.779 l 260.881 336.259 m 260.881 335.299 l S 261.361 337.219 m 262.321 337.219 l 262.321 336.259 l 261.361 335.299 l 260.401 335.299 l 260.401 336.259 l f 261.841 337.219 m 261.841 336.259 l 261.361 336.739 m 263.281 336.739 l 260.401 337.459 m 263.281 337.459 l 262.801 337.939 m 262.801 336.979 l 262.801 337.939 m 262.801 336.979 l 262.801 338.899 m 262.801 336.979 l 262.801 338.899 m 262.801 337.939 l 262.801 338.899 m 262.801 337.939 l 260.401 338.419 m 263.281 338.419 l 260.401 340.099 m 263.281 340.099 l 261.841 340.579 m 261.841 339.619 l 261.841 340.579 m 261.841 339.619 l 260.401 340.099 m 262.321 340.099 l 260.881 341.539 m 260.881 339.619 l 260.401 342.979 m 263.281 342.979 l 261.841 343.459 m 261.841 342.499 l 260.401 342.979 m 262.321 342.979 l 260.881 343.459 m 260.881 341.539 l 260.401 342.019 m 262.321 342.019 l 261.841 342.499 m 261.841 341.539 l 261.841 342.499 m 261.841 340.579 l 261.841 341.539 m 261.841 340.579 l S 262.321 342.499 m 263.281 342.499 l 263.281 341.539 l 262.321 340.579 l 261.361 340.579 l 261.361 341.539 l f 262.801 342.499 m 262.801 341.539 l 262.801 342.499 m 262.801 341.539 l 262.801 343.459 m 262.801 341.539 l 262.801 343.459 m 262.801 342.499 l 262.801 343.459 m 262.801 342.499 l 259.201 343.699 m 263.281 343.699 l 261.841 346.819 m 261.841 344.179 l 261.841 346.819 m 261.841 345.859 l 261.841 346.819 m 261.841 345.859 l 260.401 346.339 m 262.321 346.339 l 260.881 346.819 m 260.881 345.859 l 260.881 346.819 m 260.881 345.139 l 260.881 346.099 m 260.881 345.139 l 260.401 345.619 m 262.321 345.619 l 261.841 346.099 m 261.841 344.179 l 261.841 345.139 m 261.841 344.179 l S 262.321 346.099 m 263.281 346.099 l 263.281 345.139 l 262.321 344.179 l 261.361 344.179 l 261.361 345.139 l f 262.801 346.099 m 262.801 345.139 l 262.801 346.099 m 262.801 345.139 l 262.801 346.819 m 262.801 345.139 l 262.801 346.819 m 262.801 345.859 l 262.801 346.819 m 262.801 345.859 l S BT 4.8989 0 0 4.4957 182.1054 332.729 Tm (Décantation)Tj -1.3223 5.1216 TD (Rétention des hydrocarbures)Tj ET 317.761 384.979 m 321.601 384.979 l 318.241 387.139 m 318.241 384.499 l 320.161 386.179 m 320.161 384.499 l 321.121 387.139 m 321.121 384.499 l 318.721 388.579 m 320.641 388.579 l 319.201 389.059 m 319.201 388.099 l 319.201 389.059 m 319.201 387.139 l 319.201 388.099 m 319.201 387.139 l 318.721 387.619 m 320.641 387.619 l 320.161 388.099 m 320.161 386.179 l 320.161 387.139 m 320.161 386.179 l S 320.641 388.099 m 321.601 388.099 l 321.601 387.139 l 320.641 386.179 l 319.681 386.179 l 319.681 387.139 l f 321.121 388.099 m 321.121 387.139 l 321.121 388.099 m 321.121 387.139 l 321.121 389.059 m 321.121 387.139 l 321.121 389.059 m 321.121 388.099 l 321.121 389.059 m 321.121 388.099 l 317.761 389.299 m 321.601 389.299 l S 318.721 390.739 m 319.681 390.739 l 320.641 389.779 l 320.641 388.819 l 319.681 388.819 l 318.721 389.779 l f 319.201 390.739 m 319.201 389.779 l 319.201 390.739 m 319.201 389.779 l 319.201 391.699 m 319.201 389.779 l 318.721 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396.979 l 319.201 397.939 m 319.201 396.019 l 318.721 396.499 m 320.641 396.499 l 320.161 396.979 m 320.161 396.019 l 320.161 396.979 m 320.161 396.019 l 319.681 396.499 m 321.601 396.499 l 321.121 396.979 m 321.121 396.019 l 321.121 397.939 m 321.121 396.019 l 321.121 397.939 m 321.121 396.979 l 321.121 397.939 m 321.121 396.979 l 321.121 398.899 m 321.121 396.979 l 317.761 402.739 m 321.601 402.739 l S 319.681 403.219 m 320.641 403.219 l 320.641 402.259 l 319.681 401.299 l 318.721 401.299 l 318.721 402.259 l f 319.201 402.259 m 319.201 401.299 l 319.201 402.259 m 319.201 401.299 l 319.201 402.259 m 319.201 400.579 l 318.721 401.059 m 320.641 401.059 l 320.161 401.539 m 320.161 400.579 l 320.161 401.539 m 320.161 400.579 l 319.681 401.059 m 321.601 401.059 l 321.121 401.539 m 321.121 400.579 l 321.121 402.259 m 321.121 400.579 l 321.121 402.259 m 321.121 401.299 l 321.121 402.259 m 321.121 401.299 l 321.121 403.219 m 321.121 401.299 l 320.161 405.139 m 320.161 403.219 l 320.161 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411.139 l S 318.721 412.099 m 319.681 412.099 l 320.641 411.379 l 320.641 410.419 l 319.681 410.419 l 318.721 411.139 l f 320.161 412.099 m 320.161 410.419 l 320.161 412.099 m 320.161 411.139 l 320.161 412.099 m 320.161 411.139 l 320.161 413.059 m 320.161 411.139 l 320.161 413.059 m 320.161 412.099 l 319.681 412.579 m 321.601 412.579 l 321.121 413.059 m 321.121 412.099 l 321.121 413.059 m 321.121 411.139 l 321.121 412.099 m 321.121 411.139 l 321.121 412.099 m 321.121 411.139 l 321.121 412.099 m 321.121 410.419 l 318.721 413.539 m 321.601 413.539 l 318.241 414.019 m 318.241 413.059 l 318.241 414.019 m 318.241 413.059 l 318.241 414.019 m 318.241 413.059 l 318.241 414.019 m 318.241 413.059 l 317.761 414.499 m 320.641 414.499 l 319.681 414.499 m 321.601 414.499 l 321.121 415.699 m 321.121 414.019 l 321.121 415.699 m 321.121 414.739 l 319.201 415.699 m 319.201 414.019 l 320.161 417.619 m 320.161 415.699 l 320.161 417.619 m 320.161 416.659 l 318.721 417.139 m 320.641 417.139 l 319.201 417.619 m 319.201 416.659 l 319.201 417.619 m 319.201 416.659 l 319.201 417.619 m 319.201 416.659 l 319.201 417.619 m 319.201 415.699 l 319.201 416.659 m 319.201 415.699 l 318.721 416.179 m 320.641 416.179 l 320.161 416.659 m 320.161 415.699 l 320.161 416.659 m 320.161 415.699 l 319.681 416.179 m 321.601 416.179 l 321.121 417.619 m 321.121 415.699 l 321.121 417.619 m 321.121 416.659 l 321.121 417.619 m 321.121 416.659 l 319.681 417.139 m 321.601 417.139 l 220.321 508.339 m 386.641 508.339 l S BT /TT4 1 Tf 11.664 0 0 10.704 220.4915 511.4131 Tm (Principe du décanteur deshuileur)Tj /TT6 1 Tf 8.748 0 0 8.028 205.8568 497.0225 Tm (Bassin de rétention de type rustique à cloison siphoïde)Tj ET endstream endobj 87 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R >> /Pattern << /P1 88 0 R /P2 89 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 91 0 obj << /Length 4357 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 26)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT8 1 Tf 12 0 0 12 133.201 737.7791 Tm 0.0001 Tc 0.0004 Tw [(2.4 – )-9.5(Redimensionnements des réseaux)]TJ ET 131.761 733.699 402.24 0.48 re f BT /TT4 1 Tf 12 0 0 12 175.921 696.979 Tm 0 Tc (a – Modifications à réaliser)Tj ET 175.921 695.539 136.08 0.72 re f BT /TT15 1 Tf 12 0 0 12 204.241 660.979 Tm 0 Tw <00be>Tj /TT14 1 Tf 0.7944 0 TD ( )Tj /TT4 1 Tf 0.9656 0 TD 0.0004 Tw (Rue de la Graholière)Tj /TT6 1 Tf -10.62 -2 TD 0.0011 Tc 0.0108 Tw [(Les deux traversées de la rue de la )-10.5(Graholière étant insuffisantes pour évacuer les eaux du)]TJ -2.96 -1 TD 0.0084 Tc 0.0835 Tw (BVC 2.1, elles seront redimensionnées en Ø400. Ces redimensionnements ne prennent pas en)Tj T* 0.0271 Tc 0.2707 Tw (compte la possibilité d’imperméabilisation de la zone NAa de la Graholière mais les)Tj T* 0 Tc 0.0002 Tw (ruissellements étant déjà conséquents, l’impact hydraulique sera moins important.)Tj 2.96 -2 TD 0.0022 Tc 0.0217 Tw (Les eaux pluviales rejoignent le carrefour via une canalisation enterrée \(L30\) de diamètre)Tj -2.96 -1 TD 0.0077 Tc 0.0768 Tw (Ø800, mais de faible pente \(0,37 %\), sa capacité d’évacuation est donc fortement diminuée et)Tj T* 0.022 Tc 0.2202 Tw (trop faible. Pour éviter son redimensionnement \(94 ml\), le fossé amont sera élargi )Tj 37.62 0 TD 0 Tc 0 Tw (afin)Tj -37.62 -1 TD 0.0003 Tw (d’augmenter son effet écrêteur.)Tj /TT15 1 Tf 11.82 -3 TD 0 Tw <00be>Tj /TT14 1 Tf 0.7944 0 TD ( )Tj /TT4 1 Tf 0.9656 0 TD 0.0004 Tw [(Carrefour de )-7.4(Boulay)]TJ /TT6 1 Tf -10.62 -2 TD 0.0067 Tc 0.067 Tw (Toutes les eaux de ruissellement du versant étudié se concentrent à ce carrefour et sont)Tj -2.96 -1 TD 0.0072 Tc 0.0793 Tw [(évacuées par réseau enterré sous la rue du Boulay. )13.5(Cependant, )13.5(les )13.5(réseaux )13.5(des )13.5(rues )13.5(adjacentes)]TJ T* 0.0222 Tc 0.2225 Tw (sont sous-dimensionnés et l’accumulation des ruissellements devient dangereuse pour la)Tj T* 0 Tc 0.0001 Tw (circulation et gênante pour les riverains. Les rues ou routes concernées sont :)Tj /TT17 1 Tf 4.72 -1 TD 0 Tw (-)Tj /TT14 1 Tf 0.333 0 TD ( )Tj /TT6 1 Tf 0.867 0 TD (route du Soleil Levant,)Tj /TT17 1 Tf -1.2 -1 TD (-)Tj /TT14 1 Tf 0.333 0 TD ( )Tj /TT6 1 Tf 0.867 0 TD 0.0004 Tw (route des Meuniers,)Tj /TT17 1 Tf -1.2 -1 TD 0 Tw (-)Tj /TT14 1 Tf 0.333 0 TD ( )Tj /TT6 1 Tf 0.867 0 TD (rue de la Vendée.)Tj -3.28 -2 TD 0.0005 Tw (La partie finale des réseaux sera à redimensionner avec cependant une tranche ferme et une)Tj -2.64 -1 TD 0.0029 Tc 0.0291 Tw (tranche conditionnelle. La première consiste à réhabiliter le minimum de tronçons en conservant)Tj T* 0.0057 Tc 0.0573 Tw (des ruissellements par faibles laminages sur la partie amont de la voirie concernée. La seconde)Tj T* 0.0267 Tc 0.2671 Tw (conseille un plus grand nombre de redimensionnements pour limiter au maximum les)Tj T* 0.0001 Tc 0 Tw (ruissellements.)Tj 2.64 -2 TD 0.0011 Tc 0.0114 Tw (Les travaux de la route des Meuniers sont commencés et un réseau EP busé \(Ø300\) va être)Tj -2.64 -1 TD 0.0045 Tc 0.0447 Tw (posé le long de celle-ci. Quelques ruissellements, sans conséquence, risques d’être observés. Ils)Tj T* 0 Tc 0.0005 Tw (seront récupérés par les avaloirs du carrefour de Boulay.)Tj /TT15 1 Tf 11.82 -3 TD 0 Tw <00be>Tj /TT14 1 Tf 0.7944 0 TD ( )Tj /TT4 1 Tf 0.9656 0 TD [(Rue de )-9.2(Boulay et exutoire)]TJ /TT6 1 Tf -10.62 -2 TD 0.0056 Tc 0.0564 Tw (Le réseau existant Ø800 \(L40-41-55-56-65-66\) est insuffisant au vu des débits afférents)Tj -2.96 -1 TD 0.0278 Tc 0.278 Tw (malgré le bassin de rétention plus en amont. Deux solutions sont envisageables, soit)Tj T* 0.0003 Tc 0.0025 Tw (redimensionner ces tronçons Ø800 en Ø1000 en abaissant le radier, soit créer un deuxième réseau)Tj T* 0.0038 Tc 0.0375 Tw (\(Ø700 et Ø800\) de l’autre côté de la route. La deuxième solution semble la plus avantageuse en)Tj T* 0 Tc 0 Tw (terme de coût pour la commune.)Tj 2.94 -2 TD 0.0002 Tw (Le tronçon L121 \(Ø500\) pourra être réhabilité afin d’éviter tout ruissellement.)Tj ET endstream endobj 92 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R /TT14 56 0 R /TT15 93 0 R /TT17 94 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 96 0 obj << /Length 3001 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 27)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 749.539 Tm 0.0083 Tc 0.0833 Tw (Ce double réseau se rejoindra au niveau du nœud N125 ainsi que celui de la route des)Tj -2.94 -1 TD 0.0086 Tc 0.086 Tw (Faucardeurs avant de se jeter dans le fossé existant via une buse rectangulaire. Cette dernière)Tj T* 0.0021 Tc 0.0198 Tw (\(1*1,5 - L125\) permet de conserver un niveau d’eau maximum constant et ainsi éviter la mise en)Tj T* 0 Tc 0 Tw (charge des réseaux amont.)Tj 2.94 -3 TD 0.004 Tc 0.0396 Tw (Il faut noter que les futurs aménagements de la zone NAb5 du PLU n’ont pas été pris en)Tj -2.94 -1 TD 0.0026 Tc 0.0264 Tw (compte. Le lotisseur aura donc obligation de ne pas aggraver la situation hydraulique actuelle en)Tj T* 0 Tc 0.0002 Tw (sachant que les ruissellements y sont déjà importants.)Tj 2.94 -2 TD 0.0039 Tc 0.0389 Tw (Les fossés L67 et L150 seront à recalibrer pour permettre une bonne évacuation des flux)Tj -2.94 -1 TD 0.0122 Tc 0.1217 Tw (afférents mais aussi écrêter les débits de pointe pour limiter le dimensionnement de la buse)Tj T* 0.0078 Tc 0.0776 Tw (exutoire. Cette buse \(Ø800\) devra quand-même être remplacée par une Ø1000 afin d’éviter la)Tj T* 0 Tc 0.0002 Tw (mise en charge des réseaux amont et les débordements des fossés.)Tj /TT15 1 Tf 11.82 -3 TD 0 Tw <00be>Tj /TT14 1 Tf 0.7944 0 TD ( )Tj /TT4 1 Tf 0.9656 0 TD (Rue de la Loire)Tj /TT6 1 Tf -10.62 -2 TD 0.0106 Tc 0.1058 Tw (Le réseau collectant le versant BVC 4.2 étant insuffisant, les derniers tronçons seront)Tj -2.96 -1 TD 0.0098 Tc 0.0979 Tw (repris \(Ø500 - L60 et 61\), ainsi que la traversée sous voirie \(Ø600 - L62\). Les flux transmis)Tj T* 0.0028 Tc 0.0283 Tw (seront orientés vers un fossé existant \(L140\). Ce dernier sera recalibré et rejoindra le fossé L150)Tj T* 0 Tc 0 Tw (et l’exutoire C.)Tj /TT15 1 Tf 11.82 -3 TD <00be>Tj /TT14 1 Tf 0.7944 0 TD ( )Tj /TT4 1 Tf 0.9656 0 TD 0.0003 Tw (Rue de la Basse rivière \(versant D\))Tj /TT6 1 Tf -10.62 -2 TD 0.0033 Tc 0.0332 Tw (Afin de pallier aux dysfonctionnements du versant D, une traversée de la rue de la Basse)Tj -2.96 -1 TD 0.0095 Tc 0.0952 Tw (Rivière sera créée dans son point bas pour récupérer le maximum de ruissellements possible.)Tj T* 0.0045 Tc 0.0454 Tw (Cette traversée se fera à l’aide d’une buse rectangulaire \(0,4*1\) pour conserver un minimum de)Tj T* 0 Tc 0.0003 Tw (couverture sous voirie.)Tj 2.96 -2 TD 0.0111 Tc 0.1111 Tw (Les eaux captées seront dirigées vers un fossé écrêteur qui permettra de diminuer les)Tj -2.96 -1 TD 0.1103 Tw (débits de pointe à transmettre vers l’aval et stocker les eaux excédentaires pendant quelques)Tj T* 0 Tc 0 Tw (minutes.)Tj ET endstream endobj 97 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT14 56 0 R /TT15 93 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 99 0 obj << /Length 18918 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 28)Tj ET 60.961 91.219 473.04 0.48 re f BT /TT15 1 Tf 12 0 0 12 203.521 749.539 Tm 0 Tw <00be>Tj /TT14 1 Tf 0.7944 0 TD ( )Tj /TT4 1 Tf 1.0256 0 TD 0.0003 Tw (Récapitulatif des réseaux modifiés ou crées du projet)Tj /TT6 1 Tf -10.62 -2 TD 0.0038 Tc 0.0378 Tw (Le tableau ci-après recense l’ensemble des tronçons réhabilités, redimensionnés ou créés)Tj -2.96 -1 TD 0 Tc 0 Tw (sur toute la zone d’étude :)Tj ET 0.851 g 62.641 674.179 98.64 24 re f BT /TT8 1 Tf 12 0 0 12 91.681 682.819 Tm 0 g (Versant)Tj ET 0.851 g 162.001 674.179 59.28 24 re f BT 12 0 0 12 169.681 682.819 Tm 0 g (Tronçon)Tj ET 0.851 g 222.001 674.179 59.52 24 re f 223.441 686.419 57.36 12 re f BT 12 0 0 12 228.001 688.819 Tm 0 g (Diamètre)Tj ET 0.851 g 223.441 674.419 57.36 12 re f BT 12 0 0 12 243.121 676.819 Tm 0 g (\(m\))Tj ET 0.851 g 282.241 674.179 59.52 24 re f 283.681 686.419 57.36 12 re f BT 12 0 0 12 298.081 688.819 Tm 0 g (Pente)Tj ET 0.851 g 283.681 674.419 57.36 12 re f BT 12 0 0 12 302.401 676.819 Tm 0 g (\(%\))Tj ET 0.851 g 342.481 674.179 59.76 24 re f BT 12 0 0 12 350.161 682.819 Tm 0 g (Rugosité)Tj ET 0.851 g 402.961 674.179 59.52 24 re f 404.161 686.419 57.36 12 re f BT 12 0 0 12 407.521 688.819 Tm 0 g (Longueur)Tj ET 0.851 g 404.161 674.419 57.36 12 re f BT 12 0 0 12 423.841 676.819 Tm 0 g (\(m\))Tj ET 0.851 g 463.201 674.179 59.52 24 re f 464.401 686.419 57.36 12 re f BT 12 0 0 12 470.401 688.819 Tm 0 g (Capacité)Tj ET 0.851 g 464.401 674.419 57.36 12 re f BT 12 0 0 12 477.121 676.819 Tm 0 g (\(m3/s\))Tj ET 61.921 698.419 461.52 0.72 re f 61.921 674.179 0.72 24.24 re f 161.281 674.179 0.72 24.24 re f 221.281 674.179 0.72 24.24 re f 281.521 674.179 0.72 24.24 re f 341.761 674.179 0.72 24.24 re f 402.241 674.179 0.72 24.24 re f 462.481 674.179 0.72 24.24 re f 522.721 674.179 0.72 24.24 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 663.379 Tm [(Pro 1.1a)-7711.4(L1b)-4144.7(0,5)-4083.3(0,86)-3583.3(0,016)-4194.4(7)]TJ /TT10 1 Tf 38.8667 0 TD (0,28)Tj ET 62.161 673.459 0.48 0.24 re f 61.921 673.699 99.36 0.48 re f 161.281 673.459 362.16 0.72 re f 62.161 660.499 0.48 12.96 re f 161.521 660.499 0.48 12.96 re f 221.281 660.499 0.72 12.96 re f 281.521 660.499 0.72 12.96 re f 341.761 660.499 0.72 12.96 re f 402.241 660.499 0.72 12.96 re f 462.481 660.499 0.72 12.96 re f 522.721 660.499 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 183.121 649.699 Tm [(L8b)-4144.7(0,6)-4705.6(1)-4211.1(0,016)-4194.4(7)]TJ /TT10 1 Tf 27.8222 0 TD (0,50)Tj ET 62.161 659.779 0.48 0.72 re f 62.641 660.019 98.88 0.48 re f 161.521 659.779 361.92 0.72 re f 62.161 646.819 0.48 12.96 re f 161.521 646.819 0.48 12.96 re f 221.281 646.819 0.72 12.96 re f 281.521 646.819 0.72 12.96 re f 341.761 646.819 0.72 12.96 re f 402.241 646.819 0.72 12.96 re f 462.481 646.819 0.72 12.96 re f 522.721 646.819 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 643.219 Tm (Pro 1.2+BVC 1.3)Tj 11.2889 -0.6667 TD [(L9)-4400.3(0,8)-4083.3(0,64)-3583.3(0,033)-3683.3(164)]TJ /TT10 1 Tf 27.5778 0 TD (1,09)Tj ET 62.161 646.099 0.48 0.72 re f 161.521 646.099 361.92 0.72 re f 62.161 633.139 0.48 12.96 re f 161.521 633.139 0.48 12.96 re f 221.281 633.139 0.72 12.96 re f 281.521 633.139 0.72 12.96 re f 341.761 633.139 0.72 12.96 re f 402.241 633.139 0.72 12.96 re f 462.481 633.139 0.72 12.96 re f 522.721 633.139 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 622.819 Tm (Pro \(1.1a+1.1b+1.2\))Tj 0 -1.1111 TD (+ BVC 1.3)Tj 11.0444 0.5556 TD [(L15)-4522.5(1)-4700(0,5)-3838.9(0,033)-3683.3(200)]TJ /TT10 1 Tf 27.8222 0 TD (2,34)Tj ET 62.161 632.419 0.48 0.72 re f 62.641 632.659 98.88 0.48 re f 161.521 632.419 361.92 0.72 re f 62.161 608.179 0.48 24.24 re f 161.521 608.179 0.48 24.24 re f 221.281 608.179 0.72 24.24 re f 281.521 608.179 0.72 24.24 re f 341.761 608.179 0.72 24.24 re f 402.241 608.179 0.72 24.24 re f 462.481 608.179 0.72 24.24 re f 522.721 608.179 0.72 24.24 re f BT /TT6 1 Tf 10.8 0 0 10.8 180.721 597.379 Tm [(L22a)-3923.1(0,4)-4083.3(1,79)-3583.3(0,016)-3950(14)]TJ /TT10 1 Tf 28.0444 0 TD (0,23)Tj ET 62.161 607.459 0.48 0.72 re f 62.641 607.699 98.88 0.48 re f 161.521 607.459 361.92 0.72 re f 62.161 594.499 0.48 12.96 re f 161.521 594.499 0.48 12.96 re f 221.281 594.499 0.72 12.96 re f 281.521 594.499 0.72 12.96 re f 341.761 594.499 0.72 12.96 re f 402.241 594.499 0.72 12.96 re f 462.481 594.499 0.72 12.96 re f 522.721 594.499 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 590.899 Tm (BVC 2.1)Tj 10.7778 -0.6667 TD [(L22b)-3911.4(0,4)-4083.3(1,79)-3583.3(0,016)-3950(14)]TJ /TT10 1 Tf 28.0889 0 TD (0,23)Tj ET 62.161 593.779 0.48 0.72 re f 161.521 593.779 361.92 0.72 re f 62.161 580.819 0.48 12.96 re f 161.521 580.819 0.48 12.96 re f 221.281 580.819 0.72 12.96 re f 281.521 580.819 0.72 12.96 re f 341.761 580.819 0.72 12.96 re f 402.241 580.819 0.72 12.96 re f 462.481 580.819 0.72 12.96 re f 522.721 580.819 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 183.121 570.019 Tm [(L26)-4144.7(1,3)-4083.3(0,47)-3583.3(0,033)-3950(53)]TJ /TT10 1 Tf 27.8222 0 TD (3,20)Tj ET 62.161 580.099 0.48 0.72 re f 62.641 580.339 98.88 0.48 re f 161.521 580.099 361.92 0.72 re f 62.161 567.139 0.48 12.96 re f 161.521 567.139 0.48 12.96 re f 221.281 567.139 0.72 12.96 re f 281.521 567.139 0.72 12.96 re f 341.761 567.139 0.72 12.96 re f 402.241 567.139 0.72 12.96 re f 462.481 567.139 0.72 12.96 re f 522.721 567.139 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 569.539 Tm [(BVC \(1+)-8(2.1+2.2\))]TJ 0 -1.1111 TD 0.0083 Tw [(+ pro )8.3(3.1a)]TJ 11.0444 -0.1111 TD 0 Tw [(L27)-4144.7(1,3)-4083.3(0,45)-3583.3(0,033)-3950(20)]TJ /TT10 1 Tf 27.5778 0 TD (15,17)Tj ET 62.161 566.419 0.48 0.72 re f 161.521 566.419 361.92 0.72 re f 62.161 553.219 0.48 13.2 re f 161.521 553.219 0.48 13.2 re f 221.281 553.219 0.72 13.2 re f 281.521 553.219 0.72 13.2 re f 341.761 553.219 0.72 13.2 re f 402.241 553.219 0.72 13.2 re f 462.481 553.219 0.72 13.2 re f 522.721 553.219 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 542.4191 Tm [(BVC 2.3)-7488.3(L35)-4144.7(0,5)-4083.3(1,33)-3583.3(0,016)-3683.3(117)]TJ /TT10 1 Tf 38.8667 0 TD (0,35)Tj ET 62.161 552.499 0.48 0.72 re f 62.641 552.739 98.88 0.48 re f 161.521 552.499 361.92 0.72 re f 62.161 539.539 0.48 12.96 re f 161.521 539.539 0.48 12.96 re f 221.281 539.539 0.72 12.96 re f 281.521 539.539 0.72 12.96 re f 341.761 539.539 0.72 12.96 re f 402.241 539.539 0.72 12.96 re f 462.481 539.539 0.72 12.96 re f 522.721 539.539 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 528.739 Tm [(Pro 3.1b)-7655.3(L45)-4144.7(0,5)-4083.3(1,77)-3583.3(0,016)-3950(26)]TJ /TT10 1 Tf 38.8667 0 TD (0,41)Tj ET 62.161 538.819 0.48 0.72 re f 62.641 539.059 98.88 0.48 re f 161.521 538.819 361.92 0.72 re f 62.161 525.859 0.48 12.96 re f 161.521 525.859 0.48 12.96 re f 221.281 525.859 0.72 12.96 re f 281.521 525.859 0.72 12.96 re f 341.761 525.859 0.72 12.96 re f 402.241 525.859 0.72 12.96 re f 462.481 525.859 0.72 12.96 re f 522.721 525.859 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 180.721 515.059 Tm [(L46a)-3923.1(0,5)-4083.3(3,53)-3583.3(0,016)-3950(15)]TJ /TT10 1 Tf 28.0444 0 TD (0,58)Tj ET 62.161 525.139 0.48 0.72 re f 62.641 525.379 98.88 0.48 re f 161.521 525.139 361.92 0.72 re f 62.161 511.939 0.48 13.2 re f 161.521 511.939 0.48 13.2 re f 221.281 511.939 0.72 13.2 re f 281.521 511.939 0.72 13.2 re f 341.761 511.939 0.72 13.2 re f 402.241 511.939 0.72 13.2 re f 462.481 511.939 0.72 13.2 re f 522.721 511.939 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 508.579 Tm (BVC 3.2)Tj 11.0444 -0.6889 TD [(L47)-4144.7(0,6)-4705.6(2)-4211.1(0,016)-4194.4(5)]TJ /TT10 1 Tf 27.8222 0 TD (0,71)Tj ET 62.161 511.219 0.48 0.72 re f 161.521 511.219 361.92 0.72 re f 62.161 498.259 0.48 12.96 re f 161.521 498.259 0.48 12.96 re f 221.281 498.259 0.72 12.96 re f 281.521 498.259 0.72 12.96 re f 341.761 498.259 0.72 12.96 re f 402.241 498.259 0.72 12.96 re f 462.481 498.259 0.72 12.96 re f 522.721 498.259 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 487.459 Tm [(BVC 3.2 + pro 3.1b)-3091.3(L48)-4144.7(0,7)-4083.3(2,15)-3583.3(0,016)-3950(52)]TJ /TT10 1 Tf 38.8667 0 TD (1,10)Tj ET 62.161 497.539 0.48 0.72 re f 62.641 497.779 98.88 0.48 re f 161.521 497.539 361.92 0.72 re f 62.161 484.579 0.48 12.96 re f 161.521 484.579 0.48 12.96 re f 221.281 484.579 0.72 12.96 re f 281.521 484.579 0.72 12.96 re f 341.761 484.579 0.72 12.96 re f 402.241 484.579 0.72 12.96 re f 462.481 484.579 0.72 12.96 re f 522.721 484.579 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 183.121 473.779 Tm [(L50)-4144.7(0,5)-4083.3(1,11)-3583.3(0,016)-4194.4(9)]TJ /TT10 1 Tf 27.8222 0 TD (0,32)Tj ET 62.161 483.859 0.48 0.72 re f 62.641 484.099 98.88 0.48 re f 161.521 483.859 361.92 0.72 re f 62.161 470.899 0.48 12.96 re f 161.521 470.899 0.48 12.96 re f 221.281 470.899 0.72 12.96 re f 281.521 470.899 0.72 12.96 re f 341.761 470.899 0.72 12.96 re f 402.241 470.899 0.72 12.96 re f 462.481 470.899 0.72 12.96 re f 522.721 470.899 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 467.299 Tm (Pro 1.2)Tj 11.0444 -0.6667 TD [(L51)-4144.7(1,2)-4083.3(0,81)-3583.3(0,033)-3683.3(280)]TJ /TT10 1 Tf 27.8222 0 TD (1,64)Tj ET 62.161 470.179 0.48 0.72 re f 161.521 470.179 361.92 0.72 re f 62.161 456.979 0.48 13.2 re f 161.521 456.979 0.48 13.2 re f 221.281 456.979 0.72 13.2 re f 281.521 456.979 0.72 13.2 re f 341.761 456.979 0.72 13.2 re f 402.241 456.979 0.72 13.2 re f 462.481 456.979 0.72 13.2 re f 522.721 456.979 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 183.121 446.179 Tm [(L60)-4144.7(0,5)-4083.3(3,05)-3583.3(0,016)-3950(64)]TJ /TT10 1 Tf 27.8222 0 TD (0,50)Tj ET 62.161 456.259 0.48 0.72 re f 62.641 456.499 98.88 0.48 re f 161.521 456.259 361.92 0.72 re f 62.161 443.299 0.48 12.96 re f 161.521 443.299 0.48 12.96 re f 221.281 443.299 0.72 12.96 re f 281.521 443.299 0.72 12.96 re f 341.761 443.299 0.72 12.96 re f 402.241 443.299 0.72 12.96 re f 462.481 443.299 0.72 12.96 re f 522.721 443.299 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 183.121 432.499 Tm [(L61)-4144.7(0,5)-4705.6(3)-4211.1(0,016)-3950(20)]TJ /TT10 1 Tf 27.8222 0 TD (0,50)Tj ET 62.161 442.579 0.48 0.72 re f 161.521 442.579 361.92 0.72 re f 62.161 429.619 0.48 12.96 re f 161.521 429.619 0.48 12.96 re f 221.281 429.619 0.72 12.96 re f 281.521 429.619 0.72 12.96 re f 341.761 429.619 0.72 12.96 re f 402.241 429.619 0.72 12.96 re f 462.481 429.619 0.72 12.96 re f 522.721 429.619 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 432.739 Tm (BVC 4.2)Tj 11.0444 -1.2889 TD [(L62)-4144.7(0,6)-4083.3(1,31)-3583.3(0,016)-3950(13)]TJ /TT10 1 Tf 27.8222 0 TD (0,48)Tj ET 62.161 428.899 0.48 0.72 re f 161.521 428.899 361.92 0.72 re f 62.161 415.699 0.48 13.2 re f 161.521 415.699 0.48 13.2 re f 221.281 415.699 0.72 13.2 re f 281.521 415.699 0.72 13.2 re f 341.761 415.699 0.72 13.2 re f 402.241 415.699 0.72 13.2 re f 462.481 415.699 0.72 13.2 re f 522.721 415.699 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 183.121 404.899 Tm [(L65)-4522.5(1)-4455.6(0,88)-3583.3(0,033)-3950(52)]TJ /TT10 1 Tf 27.8222 0 TD (1,96)Tj ET 62.161 414.979 0.48 0.72 re f 62.641 415.219 98.88 0.48 re f 161.521 414.979 361.92 0.72 re f 62.161 402.019 0.48 12.96 re f 161.521 402.019 0.48 12.96 re f 221.281 402.019 0.72 12.96 re f 281.521 402.019 0.72 12.96 re f 341.761 402.019 0.72 12.96 re f 402.241 402.019 0.72 12.96 re f 462.481 402.019 0.72 12.96 re f 522.721 402.019 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 404.419 Tm (BVC \(1+2\))Tj 0 -1.1111 TD 0.0083 Tw [(+ pro )8.3(\(3.1a+4.1a\))]TJ 11.0444 -0.1111 TD 0 Tw [(L66)-4522.5(1)-4455.6(1,57)-3583.3(0,016)-4194.4(7)]TJ /TT10 1 Tf 27.8222 0 TD (2,44)Tj ET 62.161 401.299 0.48 0.72 re f 161.521 401.299 361.92 0.72 re f 62.161 388.339 0.48 12.96 re f 161.521 388.339 0.48 12.96 re f 221.281 388.339 0.72 12.96 re f 281.521 388.339 0.72 12.96 re f 341.761 388.339 0.72 12.96 re f 402.241 388.339 0.72 12.96 re f 462.481 388.339 0.72 12.96 re f 522.721 388.339 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 377.539 Tm [(BVC \(1+2+3+4.1\))-3630.4(L67)-4144.7(1,2)-4083.3(0,47)-3583.3(0,033)-3950(81)]TJ /TT10 1 Tf 38.8667 0 TD (3,44)Tj ET 62.161 387.619 0.48 0.72 re f 62.641 387.859 98.88 0.48 re f 161.521 387.619 361.92 0.72 re f 62.161 374.659 0.48 12.96 re f 161.521 374.659 0.48 12.96 re f 221.281 374.659 0.72 12.96 re f 281.521 374.659 0.72 12.96 re f 341.761 374.659 0.72 12.96 re f 402.241 374.659 0.72 12.96 re f 462.481 374.659 0.72 12.96 re f 522.721 374.659 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 363.859 Tm 0.005 Tw [(BVC tot)-7677.7(L68)-4522.5(1)-4700(1,5)-3838.9(0,016)-3950(24)]TJ /TT10 1 Tf 38.8667 0 TD 0 Tw (2,39)Tj ET 62.161 373.939 0.48 0.72 re f 62.641 374.179 98.88 0.48 re f 161.521 373.939 361.92 0.72 re f 62.161 360.739 0.48 13.2 re f 161.521 360.739 0.48 13.2 re f 221.281 360.739 0.72 13.2 re f 281.521 360.739 0.72 13.2 re f 341.761 360.739 0.72 13.2 re f 402.241 360.739 0.72 13.2 re f 462.481 360.739 0.72 13.2 re f 522.721 360.739 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 349.939 Tm [(BVC 1)-7971.6(L110)-4289.2(1)-4700(1,5)-3838.9(0,016)-3950(20)]TJ /TT10 1 Tf 38.8667 0 TD (2,38)Tj ET 62.161 360.019 0.48 0.72 re f 62.641 360.259 98.88 0.48 re f 161.521 360.019 361.92 0.72 re f 62.161 347.059 0.48 12.96 re f 161.521 347.059 0.48 12.96 re f 221.281 347.059 0.72 12.96 re f 281.521 347.059 0.72 12.96 re f 341.761 347.059 0.72 12.96 re f 402.241 347.059 0.72 12.96 re f 462.481 347.059 0.72 12.96 re f 522.721 347.059 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 336.259 Tm [(Pro 3.1a)-7444.8(L111)-3911.4(0,6)-4705.6(2)-4211.1(0,017)-3950(30)]TJ /TT10 1 Tf 38.8667 0 TD (0,66)Tj ET 62.161 346.339 0.48 0.72 re f 62.641 346.579 98.88 0.48 re f 161.521 346.339 361.92 0.72 re f 62.161 333.379 0.48 12.96 re f 161.521 333.379 0.48 12.96 re f 221.281 333.379 0.72 12.96 re f 281.521 333.379 0.72 12.96 re f 341.761 333.379 0.72 12.96 re f 402.241 333.379 0.72 12.96 re f 462.481 333.379 0.72 12.96 re f 522.721 333.379 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 180.241 322.579 Tm [(L112)-3911.4(0,3)-4705.6(1)-4211.1(0,015)-3950(10)]TJ /TT10 1 Tf 28.0889 0 TD (0,10)Tj ET 62.161 332.659 0.48 0.72 re f 62.641 332.899 98.88 0.48 re f 161.521 332.659 361.92 0.72 re f 62.161 319.459 0.48 13.2 re f 161.521 319.459 0.48 13.2 re f 221.281 319.459 0.72 13.2 re f 281.521 319.459 0.72 13.2 re f 341.761 319.459 0.72 13.2 re f 402.241 319.459 0.72 13.2 re f 462.481 319.459 0.72 13.2 re f 522.721 319.459 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 316.0991 Tm (BVC 1 + pro 3.1a)Tj 10.7778 -0.6889 TD [(L113)-3911.4(0,4)-4327.8(1,5)-3838.9(0,016)-3950(10)]TJ /TT10 1 Tf 28.0889 0 TD (0,21)Tj ET 62.161 318.739 0.48 0.72 re f 161.521 318.739 361.92 0.72 re f 62.161 305.779 0.48 12.96 re f 161.521 305.779 0.48 12.96 re f 221.281 305.779 0.72 12.96 re f 281.521 305.779 0.72 12.96 re f 341.761 305.779 0.72 12.96 re f 402.241 305.779 0.72 12.96 re f 462.481 305.779 0.72 12.96 re f 522.721 305.779 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 294.9791 Tm [(BVC 3.2 + pro 3.1b)-2824.7(L120)-3911.4(0,7)-4083.3(2,14)-3583.3(0,016)-3683.3(142)]TJ /TT10 1 Tf 38.8667 0 TD (1,10)Tj ET 62.161 305.059 0.48 0.72 re f 62.641 305.299 98.88 0.48 re f 161.521 305.059 361.92 0.72 re f 62.161 292.099 0.48 12.96 re f 161.521 292.099 0.48 12.96 re f 221.281 292.099 0.72 12.96 re f 281.521 292.099 0.72 12.96 re f 341.761 292.099 0.72 12.96 re f 402.241 292.099 0.72 12.96 re f 462.481 292.099 0.72 12.96 re f 522.721 292.099 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 180.241 281.2991 Tm [(L121)-3911.4(0,5)-4083.3(3,15)-3583.3(0,016)-3950(56)]TJ /TT10 1 Tf 28.0889 0 TD (0,54)Tj ET 62.161 291.379 0.48 0.72 re f 62.641 291.619 98.88 0.48 re f 161.521 291.379 361.92 0.72 re f 62.161 278.179 0.48 13.2 re f 161.521 278.179 0.48 13.2 re f 221.281 278.179 0.72 13.2 re f 281.521 278.179 0.72 13.2 re f 341.761 278.179 0.72 13.2 re f 402.241 278.179 0.72 13.2 re f 462.481 278.179 0.72 13.2 re f 522.721 278.179 0.72 13.2 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 280.8191 Tm (BVC 3.2+)Tj 0 -1.1111 TD (pro \(3.1b+4.1b\))Tj 10.7778 -0.1333 TD [(L122)-3911.4(0,8)-4083.3(1,24)-3583.3(0,016)-3950(94)]TJ /TT10 1 Tf 28.0889 0 TD (1,20)Tj ET 62.161 277.459 0.48 0.72 re f 161.521 277.459 361.92 0.72 re f 62.161 264.499 0.48 12.96 re f 161.521 264.499 0.48 12.96 re f 221.281 264.499 0.72 12.96 re f 281.521 264.499 0.72 12.96 re f 341.761 264.499 0.72 12.96 re f 402.241 264.499 0.72 12.96 re f 462.481 264.499 0.72 12.96 re f 522.721 264.499 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 253.6991 Tm [(BVC \(1+2+3+4.1\))-3363.7(L125)-4289.2(1)-5077.8(2)-4455.6(0,02)-4450(5)]TJ /TT10 1 Tf 38.8667 0 TD (6,03)Tj ET 62.161 263.779 0.48 0.72 re f 62.641 264.019 98.88 0.48 re f 161.521 263.779 361.92 0.72 re f 62.161 250.819 0.48 12.96 re f 161.521 250.819 0.48 12.96 re f 221.281 250.819 0.72 12.96 re f 281.521 250.819 0.72 12.96 re f 341.761 250.819 0.72 12.96 re f 402.241 250.819 0.72 12.96 re f 462.481 250.819 0.72 12.96 re f 522.721 250.819 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 240.0191 Tm [(BVC 4.3)-7221.6(L130)-3911.4(0,5)-4327.8(4,1)-3838.9(0,016)-3950(20)]TJ /TT10 1 Tf 38.8667 0 TD (0,62)Tj ET 62.161 250.099 0.48 0.72 re f 62.641 250.339 98.88 0.48 re f 161.521 250.099 361.92 0.72 re f 62.161 237.139 0.48 12.96 re f 161.521 237.139 0.48 12.96 re f 221.281 237.139 0.72 12.96 re f 281.521 237.139 0.72 12.96 re f 341.761 237.139 0.72 12.96 re f 402.241 237.139 0.72 12.96 re f 462.481 237.139 0.72 12.96 re f 522.721 237.139 0.72 12.96 re f BT /TT6 1 Tf 10.8 0 0 10.8 63.841 226.3391 Tm [(BVC 4.2)-7221.6(L140)-3911.4(0,7)-4083.3(0,93)-3583.3(0,033)-3683.3(125)]TJ /TT10 1 Tf 38.8667 0 TD (0,70)Tj ET 62.161 236.419 0.48 0.72 re f 62.641 236.659 98.88 0.48 re f 161.521 236.419 361.92 0.72 re f 62.161 223.219 0.48 13.2 re f 161.521 223.219 0.48 13.2 re f 221.281 223.219 0.72 13.2 re f 281.521 223.219 0.72 13.2 re f 341.761 223.219 0.72 13.2 re f 402.241 223.219 0.72 13.2 re f 462.481 223.219 0.72 13.2 re f 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523.459 18.96 12 re f BT 10.8 0 0 10.8 234.001 525.859 Tm 0 g [(0,48)-4027.8(0,42)-4027.8(0,38)]TJ /TT10 1 Tf 17.3333 0 TD (0,35)Tj ET 0.8 1 0.8 rg 462.241 523.459 61.68 12 re f 463.441 523.459 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 525.859 Tm 0 g (1,37)Tj ET 70.321 535.459 90.24 0.72 re f 160.561 535.699 51.6 0.48 re f 0.8 1 0.8 rg 160.561 535.459 51.6 0.24 re f 0 g 212.161 535.459 0.48 0.72 re f 212.641 535.699 61.92 0.48 re f 274.561 535.459 0.48 0.72 re f 275.041 535.699 61.92 0.48 re f 336.961 535.459 0.48 0.72 re f 337.441 535.699 61.92 0.48 re f 399.361 535.459 0.48 0.72 re f 399.841 535.699 61.68 0.48 re f 461.521 535.459 63.12 0.72 re f 70.321 523.459 0.72 12 re f 159.841 523.459 0.72 12 re f 212.161 523.459 0.48 12 re f 274.561 523.459 0.48 12 re f 336.961 523.459 0.48 12 re f 399.361 523.459 0.48 12 re f 461.521 523.459 0.72 12 re f 523.921 523.459 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 513.139 Tm (Pro 3.1b)Tj ET 0.8 1 1 rg 160.561 510.739 51.6 12 re f 161.761 510.739 49.2 12 re f BT 10.8 0 0 10.8 177.601 513.139 Tm 0 g (L45)Tj ET 0.753 g 234.001 510.739 18.96 12 re f BT 10.8 0 0 10.8 234.001 513.139 Tm 0 g [(0,31)-4027.8(0,28)-4027.8(0,26)]TJ /TT10 1 Tf 17.3333 0 TD (0,41)Tj ET 0.8 1 1 rg 462.241 510.739 61.68 12 re f 463.441 510.739 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 513.139 Tm 0 g (0,75)Tj ET 70.321 522.739 90.24 0.72 re f 160.561 522.979 51.6 0.48 re f 0.8 1 1 rg 160.561 522.739 51.6 0.24 re f 0 g 212.161 522.739 0.48 0.72 re f 212.641 522.979 61.92 0.48 re f 274.561 522.739 0.48 0.72 re f 275.041 522.979 61.92 0.48 re f 336.961 522.739 0.48 0.72 re f 337.441 522.979 61.92 0.48 re f 399.361 522.739 0.48 0.72 re f 399.841 522.979 61.68 0.48 re f 461.521 522.739 63.12 0.72 re f 70.321 510.739 0.72 12 re f 159.841 510.739 0.72 12 re f 212.161 510.739 0.48 12 re f 274.561 510.739 0.48 12 re f 336.961 510.739 0.48 12 re f 399.361 510.739 0.48 12 re f 461.521 510.739 0.72 12 re f 523.921 510.739 0.72 12 re f 0.8 1 1 rg 160.561 498.019 51.6 12 re f 161.761 498.019 49.2 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 175.201 500.419 Tm 0 g (L46a)Tj ET 0.753 g 234.001 498.019 18.96 12 re f BT 10.8 0 0 10.8 234.001 500.419 Tm 0 g [(0,45)-4027.8(0,42)-4027.8(0,39)]TJ /TT10 1 Tf 17.3333 0 TD (0,58)Tj ET 0.8 1 1 rg 462.241 498.019 61.68 12 re f 463.441 498.019 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 500.419 Tm 0 g (0,78)Tj ET 70.321 510.019 90.24 0.72 re f 160.561 510.259 51.6 0.48 re f 0.8 1 1 rg 160.561 510.019 51.6 0.24 re f 0 g 212.161 510.019 0.48 0.72 re f 212.641 510.259 61.92 0.48 re f 274.561 510.019 0.48 0.72 re f 275.041 510.259 61.92 0.48 re f 336.961 510.019 0.48 0.72 re f 337.441 510.259 61.92 0.48 re f 399.361 510.019 0.48 0.72 re f 399.841 510.259 61.68 0.48 re f 461.521 510.019 63.12 0.72 re f 70.321 498.019 0.72 12 re f 159.841 498.019 0.72 12 re f 212.161 498.019 0.48 12 re f 274.561 498.019 0.48 12 re f 336.961 498.019 0.48 12 re f 399.361 498.019 0.48 12 re f 461.521 498.019 0.72 12 re f 523.921 498.019 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 494.419 Tm (BVC 3.2)Tj ET 0.8 1 1 rg 160.561 485.299 51.6 12 re f 161.761 485.299 49.2 12 re f BT 10.8 0 0 10.8 177.601 487.699 Tm 0 g (L47)Tj ET 0.753 g 234.001 485.299 18.96 12 re f BT 10.8 0 0 10.8 234.001 487.699 Tm 0 g [(0,56)-4027.8(0,53)-4027.8(0,49)]TJ /TT10 1 Tf 17.3333 0 TD (0,71)Tj ET 0.8 1 1 rg 462.241 485.299 61.68 12 re f 463.441 485.299 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 487.699 Tm 0 g (0,78)Tj ET 70.321 497.299 0.72 0.72 re f 159.841 497.299 0.72 0.72 re f 160.561 497.539 51.6 0.48 re f 0.8 1 1 rg 160.561 497.299 51.6 0.24 re f 0 g 212.161 497.299 0.48 0.72 re f 212.641 497.539 61.92 0.48 re f 274.561 497.299 0.48 0.72 re f 275.041 497.539 61.92 0.48 re f 336.961 497.299 0.48 0.72 re f 337.441 497.539 61.92 0.48 re f 399.361 497.299 0.48 0.72 re f 399.841 497.539 61.68 0.48 re f 461.521 497.299 63.12 0.72 re f 70.321 485.299 0.72 12 re f 159.841 485.299 0.72 12 re f 212.161 485.299 0.48 12 re f 274.561 485.299 0.48 12 re f 336.961 485.299 0.48 12 re f 399.361 485.299 0.48 12 re f 461.521 485.299 0.72 12 re f 523.921 485.299 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 474.979 Tm (BVC 3.2+pro 3.1b)Tj ET 0.8 1 1 rg 160.561 472.579 51.6 12 re f 161.761 472.579 49.2 12 re f BT 10.8 0 0 10.8 177.601 474.979 Tm 0 g (L48)Tj ET 0.753 g 234.001 472.579 18.96 12 re f BT 10.8 0 0 10.8 234.001 474.979 Tm 0 g [(0,86)-4027.8(0,81)-4027.8(0,74)]TJ /TT10 1 Tf 17.3333 0 TD (1,10)Tj ET 0.8 1 1 rg 462.241 472.579 61.68 12 re f 463.441 472.579 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 474.979 Tm 0 g (0,78)Tj ET 70.321 484.579 90.24 0.72 re f 160.561 484.819 51.6 0.48 re f 0.8 1 1 rg 160.561 484.579 51.6 0.24 re f 0 g 212.161 484.579 0.48 0.72 re f 212.641 484.819 61.92 0.48 re f 274.561 484.579 0.48 0.72 re f 275.041 484.819 61.92 0.48 re f 336.961 484.579 0.48 0.72 re f 337.441 484.819 61.92 0.48 re f 399.361 484.579 0.48 0.72 re f 399.841 484.819 61.68 0.48 re f 461.521 484.579 63.12 0.72 re f 70.321 472.579 0.72 12 re f 159.841 472.579 0.72 12 re f 212.161 472.579 0.48 12 re f 274.561 472.579 0.48 12 re f 336.961 472.579 0.48 12 re f 399.361 472.579 0.48 12 re f 461.521 472.579 0.72 12 re f 523.921 472.579 0.72 12 re f 0.8 1 1 rg 160.561 459.859 51.6 12 re f 161.761 459.859 49.2 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 177.601 462.259 Tm 0 g [(L50)-3611.4(0,27)]TJ ET 0.753 g 296.401 459.859 18.96 12 re f BT 10.8 0 0 10.8 296.401 462.259 Tm 0 g [(0,30)-4027.8(0,30)]TJ /TT10 1 Tf 11.5556 0 TD (0,32)Tj ET 0.8 1 1 rg 462.241 459.859 61.68 12 re f 463.441 459.859 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 462.259 Tm 0 g (0,93)Tj ET 70.321 471.859 90.24 0.72 re f 160.561 472.099 51.6 0.48 re f 0.8 1 1 rg 160.561 471.859 51.6 0.24 re f 0 g 212.161 471.859 0.48 0.72 re f 212.641 472.099 61.92 0.48 re f 274.561 471.859 0.48 0.72 re f 275.041 472.099 61.92 0.48 re f 336.961 471.859 0.48 0.72 re f 337.441 472.099 61.92 0.48 re f 399.361 471.859 0.48 0.72 re f 399.841 472.099 61.68 0.48 re f 461.521 471.859 63.12 0.72 re f 70.321 459.859 0.72 12 re f 159.841 459.859 0.72 12 re f 212.161 459.859 0.48 12 re f 274.561 459.859 0.48 12 re f 336.961 459.859 0.48 12 re f 399.361 459.859 0.48 12 re f 461.521 459.859 0.72 12 re f 523.921 459.859 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 456.259 Tm (Pro 1.2)Tj ET 0.8 1 1 rg 160.561 447.139 51.6 12 re f 161.761 447.139 49.2 12 re f BT 10.8 0 0 10.8 177.601 449.539 Tm 0 g [(L51)-3611.4(0,26)-4027.8(0,29)]TJ ET 0.753 g 358.801 447.139 18.96 12 re f BT 10.8 0 0 10.8 358.801 449.539 Tm 0 g (0,29)Tj /TT10 1 Tf 5.7778 0 TD (1,64)Tj ET 0.8 1 1 rg 462.241 447.139 61.68 12 re f 463.441 447.139 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 449.539 Tm 0 g (0,18)Tj ET 70.321 459.139 0.72 0.72 re f 159.841 459.139 0.72 0.72 re f 160.561 459.379 51.6 0.48 re f 0.8 1 1 rg 160.561 459.139 51.6 0.24 re f 0 g 212.161 459.139 0.48 0.72 re f 212.641 459.379 61.92 0.48 re f 274.561 459.139 0.48 0.72 re f 275.041 459.379 61.92 0.48 re f 336.961 459.139 0.48 0.72 re f 337.441 459.379 61.92 0.48 re f 399.361 459.139 0.48 0.72 re f 399.841 459.379 61.68 0.48 re f 461.521 459.139 63.12 0.72 re f 70.321 447.139 0.72 12 re f 159.841 447.139 0.72 12 re f 212.161 447.139 0.48 12 re f 274.561 447.139 0.48 12 re f 336.961 447.139 0.48 12 re f 399.361 447.139 0.48 12 re f 461.521 447.139 0.72 12 re f 523.921 447.139 0.72 12 re f 0.8 1 1 rg 160.561 434.179 51.6 12 re f 161.761 434.419 49.2 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 177.601 436.819 Tm 0 g (L60)Tj ET 0.753 g 234.001 434.419 18.96 12 re f BT 10.8 0 0 10.8 234.001 436.819 Tm 0 g [(0,45)-4027.8(0,39)-4027.8(0,35)]TJ /TT10 1 Tf 17.3333 0 TD (0,50)Tj ET 0.8 1 1 rg 462.241 434.179 61.68 12 re f 463.441 434.419 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 436.819 Tm 0 g (0,90)Tj ET 70.321 446.419 90.24 0.72 re f 160.561 446.659 51.6 0.48 re f 0.8 1 1 rg 160.561 446.419 51.6 0.24 re f 0 g 212.161 446.419 0.48 0.72 re f 212.641 446.659 61.92 0.48 re f 274.561 446.419 0.48 0.72 re f 275.041 446.659 61.92 0.48 re f 336.961 446.419 0.48 0.72 re f 337.441 446.659 61.92 0.48 re f 399.361 446.419 0.48 0.72 re f 399.841 446.659 61.68 0.48 re f 461.521 446.419 63.12 0.72 re f 70.321 434.179 0.72 12.24 re f 159.841 434.179 0.72 12.24 re f 212.161 434.179 0.48 12.24 re f 274.561 434.179 0.48 12.24 re f 336.961 434.179 0.48 12.24 re f 399.361 434.179 0.48 12.24 re f 461.521 434.179 0.72 12.24 re f 523.921 434.179 0.72 12.24 re f 0.8 1 1 rg 160.561 421.459 51.6 12 re f 161.761 421.459 49.2 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 177.601 423.859 Tm 0 g (L61)Tj ET 0.753 g 234.001 421.459 18.96 12 re f BT 10.8 0 0 10.8 234.001 423.859 Tm 0 g [(0,44)-4027.8(0,39)-4027.8(0,35)]TJ /TT10 1 Tf 17.3333 0 TD (0,50)Tj ET 0.8 1 1 rg 462.241 421.459 61.68 12 re f 463.441 421.459 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 423.859 Tm 0 g (0,89)Tj ET 70.321 433.459 0.72 0.72 re f 159.841 433.459 0.72 0.72 re f 160.561 433.699 51.6 0.48 re f 0.8 1 1 rg 160.561 433.459 51.6 0.24 re f 0 g 212.161 433.459 0.48 0.72 re f 212.641 433.699 61.92 0.48 re f 274.561 433.459 0.48 0.72 re f 275.041 433.699 61.92 0.48 re f 336.961 433.459 0.48 0.72 re f 337.441 433.699 61.92 0.48 re f 399.361 433.459 0.48 0.72 re f 399.841 433.699 61.68 0.48 re f 461.521 433.459 63.12 0.72 re f 70.321 421.459 0.72 12 re f 159.841 421.459 0.72 12 re f 212.161 421.459 0.48 12 re f 274.561 421.459 0.48 12 re f 336.961 421.459 0.48 12 re f 399.361 421.459 0.48 12 re f 461.521 421.459 0.72 12 re f 523.921 421.459 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 424.579 Tm (BVC 4.2)Tj ET 0.8 1 1 rg 160.561 408.739 51.6 12 re f 161.761 408.739 49.2 12 re f BT 10.8 0 0 10.8 177.601 411.139 Tm 0 g (L62)Tj ET 0.753 g 234.001 408.739 18.96 12 re f BT 10.8 0 0 10.8 234.001 411.139 Tm 0 g [(0,44)-4027.8(0,39)-4027.8(0,35)]TJ /TT10 1 Tf 17.3333 0 TD (0,48)Tj ET 0.8 1 1 rg 462.241 408.739 61.68 12 re f 463.441 408.739 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 411.139 Tm 0 g (0,91)Tj ET 70.321 420.739 0.72 0.72 re f 159.841 420.739 0.72 0.72 re f 160.561 420.979 51.6 0.48 re f 0.8 1 1 rg 160.561 420.739 51.6 0.24 re f 0 g 212.161 420.739 0.48 0.72 re f 212.641 420.979 61.92 0.48 re f 274.561 420.739 0.48 0.72 re f 275.041 420.979 61.92 0.48 re f 336.961 420.739 0.48 0.72 re f 337.441 420.979 61.92 0.48 re f 399.361 420.739 0.48 0.72 re f 399.841 420.979 61.68 0.48 re f 461.521 420.739 63.12 0.72 re f 70.321 408.739 0.72 12 re f 159.841 408.739 0.72 12 re f 212.161 408.739 0.48 12 re f 274.561 408.739 0.48 12 re f 336.961 408.739 0.48 12 re f 399.361 408.739 0.48 12 re f 461.521 408.739 0.72 12 re f 523.921 408.739 0.72 12 re f 0.8 1 1 rg 160.561 396.019 51.6 12 re f 161.761 396.019 49.2 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 177.601 398.419 Tm 0 g [(L65)-3611.4(0,97)-4027.8(1,07)]TJ ET 0.753 g 358.801 396.019 18.96 12 re f BT 10.8 0 0 10.8 358.801 398.419 Tm 0 g (1,10)Tj /TT10 1 Tf 5.7778 0 TD (1,96)Tj ET 0.8 1 1 rg 462.241 396.019 61.68 12 re f 463.441 396.019 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 398.419 Tm 0 g (0,56)Tj ET 70.321 408.019 90.24 0.72 re f 160.561 408.259 51.6 0.48 re f 0.8 1 1 rg 160.561 408.019 51.6 0.24 re f 0 g 212.161 408.019 0.48 0.72 re f 212.641 408.259 61.92 0.48 re f 274.561 408.019 0.48 0.72 re f 275.041 408.259 61.92 0.48 re f 336.961 408.019 0.48 0.72 re f 337.441 408.259 61.92 0.48 re f 399.361 408.019 0.48 0.72 re f 399.841 408.259 61.68 0.48 re f 461.521 408.019 63.12 0.72 re f 70.321 396.019 0.72 12 re f 159.841 396.019 0.72 12 re f 212.161 396.019 0.48 12 re f 274.561 396.019 0.48 12 re f 336.961 396.019 0.48 12 re f 399.361 396.019 0.48 12 re f 461.521 396.019 0.72 12 re f 523.921 396.019 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 398.419 Tm (BVC \(1+2\))Tj 0 -1.1111 TD 0.0083 Tw [(+ pro )8.3(\(3.1a+4.1a\))]TJ ET 0.8 1 1 rg 160.561 383.299 51.6 12 re f 161.761 383.299 49.2 12 re f BT 10.8 0 0 10.8 177.601 385.699 Tm 0 g 0 Tw [(L66)-3611.4(0,99)-4027.8(1,08)]TJ ET 0.753 g 358.801 383.299 18.96 12 re f BT 10.8 0 0 10.8 358.801 385.699 Tm 0 g (1,11)Tj /TT10 1 Tf 5.7778 0 TD (2,44)Tj ET 0.8 1 1 rg 462.241 383.299 61.68 12 re f 463.441 383.299 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 385.699 Tm 0 g (0,46)Tj ET 70.321 395.299 0.72 0.72 re f 159.841 395.299 0.72 0.72 re f 160.561 395.539 51.6 0.48 re f 0.8 1 1 rg 160.561 395.299 51.6 0.24 re f 0 g 212.161 395.299 0.48 0.72 re f 212.641 395.539 61.92 0.48 re f 274.561 395.299 0.48 0.72 re f 275.041 395.539 61.92 0.48 re f 336.961 395.299 0.48 0.72 re f 337.441 395.539 61.92 0.48 re f 399.361 395.299 0.48 0.72 re f 399.841 395.539 61.68 0.48 re f 461.521 395.299 63.12 0.72 re f 70.321 383.299 0.72 12 re f 159.841 383.299 0.72 12 re f 212.161 383.299 0.48 12 re f 274.561 383.299 0.48 12 re f 336.961 383.299 0.48 12 re f 399.361 383.299 0.48 12 re f 461.521 383.299 0.72 12 re f 523.921 383.299 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 372.979 Tm (BVC \(1+2+3+4.1\))Tj ET 0.8 1 1 rg 160.561 370.579 51.6 12 re f 161.761 370.579 49.2 12 re f BT 10.8 0 0 10.8 177.601 372.979 Tm 0 g [(L67)-3611.4(2,25)]TJ ET 0.753 g 296.401 370.579 18.96 12 re f BT 10.8 0 0 10.8 296.401 372.979 Tm 0 g [(2,43)-4027.8(2,43)]TJ /TT10 1 Tf 11.5556 0 TD (3,44)Tj ET 0.8 1 1 rg 462.241 370.579 61.68 12 re f 463.441 370.579 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 372.979 Tm 0 g (0,71)Tj ET 70.321 382.579 90.24 0.72 re f 160.561 382.819 51.6 0.48 re f 0.8 1 1 rg 160.561 382.579 51.6 0.24 re f 0 g 212.161 382.579 0.48 0.72 re f 212.641 382.819 61.92 0.48 re f 274.561 382.579 0.48 0.72 re f 275.041 382.819 61.92 0.48 re f 336.961 382.579 0.48 0.72 re f 337.441 382.819 61.92 0.48 re f 399.361 382.579 0.48 0.72 re f 399.841 382.819 61.68 0.48 re f 461.521 382.579 63.12 0.72 re f 70.321 370.579 0.72 12 re f 159.841 370.579 0.72 12 re f 212.161 370.579 0.48 12 re f 274.561 370.579 0.48 12 re f 336.961 370.579 0.48 12 re f 399.361 370.579 0.48 12 re f 461.521 370.579 0.72 12 re f 523.921 370.579 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 360.259 Tm 0.005 Tw (BVC tot)Tj ET 0.8 1 0.8 rg 160.561 357.859 51.6 12 re f 161.761 357.859 49.2 12 re f BT 10.8 0 0 10.8 177.601 360.259 Tm 0 g 0 Tw [(L68)-3611.4(2,54)]TJ ET 0.753 g 296.401 357.859 18.96 12 re f BT 10.8 0 0 10.8 296.401 360.259 Tm 0 g [(2,69)-4027.8(2,68)]TJ /TT10 1 Tf 11.5556 0 TD (2,39)Tj ET 0.8 1 0.8 rg 462.241 357.859 61.68 12 re f 463.441 357.859 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 360.259 Tm 0 g (1,13)Tj ET 70.321 369.859 90.24 0.72 re f 160.561 370.099 51.6 0.48 re f 0.8 1 0.8 rg 160.561 369.859 51.6 0.24 re f 0 g 212.161 369.859 0.48 0.72 re f 212.641 370.099 61.92 0.48 re f 274.561 369.859 0.48 0.72 re f 275.041 370.099 61.92 0.48 re f 336.961 369.859 0.48 0.72 re f 337.441 370.099 61.92 0.48 re f 399.361 369.859 0.48 0.72 re f 399.841 370.099 61.68 0.48 re f 461.521 369.859 63.12 0.72 re f 70.321 357.859 0.72 12 re f 159.841 357.859 0.72 12 re f 212.161 357.859 0.48 12 re f 274.561 357.859 0.48 12 re f 336.961 357.859 0.48 12 re f 399.361 357.859 0.48 12 re f 461.521 357.859 0.72 12 re f 523.921 357.859 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 347.539 Tm (BVC 1)Tj ET 0.8 1 1 rg 160.561 345.139 51.6 12 re f 161.761 345.139 49.2 12 re f BT 10.8 0 0 10.8 174.961 347.539 Tm 0 g [(L110)-3355.8(1,73)-4027.8(1,99)]TJ ET 0.753 g 358.801 345.139 18.96 12 re f BT 10.8 0 0 10.8 358.801 347.539 Tm 0 g (2,06)Tj /TT10 1 Tf 5.7778 0 TD (2,38)Tj ET 0.8 1 1 rg 462.241 345.139 61.68 12 re f 463.441 345.139 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 347.539 Tm 0 g (0,86)Tj ET 70.321 357.139 90.24 0.72 re f 160.561 357.379 51.6 0.48 re f 0.8 1 1 rg 160.561 357.139 51.6 0.24 re f 0 g 212.161 357.139 0.48 0.72 re f 212.641 357.379 61.92 0.48 re f 274.561 357.139 0.48 0.72 re f 275.041 357.379 61.92 0.48 re f 336.961 357.139 0.48 0.72 re f 337.441 357.379 61.92 0.48 re f 399.361 357.139 0.48 0.72 re f 399.841 357.379 61.68 0.48 re f 461.521 357.139 63.12 0.72 re f 70.321 345.139 0.72 12 re f 159.841 345.139 0.72 12 re f 212.161 345.139 0.48 12 re f 274.561 345.139 0.48 12 re f 336.961 345.139 0.48 12 re f 399.361 345.139 0.48 12 re f 461.521 345.139 0.72 12 re f 523.921 345.139 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 334.819 Tm (Pro 3.1a)Tj ET 0.8 1 0.8 rg 160.561 332.179 51.6 12 re f 161.761 332.419 49.2 12 re f BT 10.8 0 0 10.8 174.961 334.819 Tm 0 g [(L111)-3355.8(0,66)]TJ ET 0.753 g 296.401 332.419 18.96 12 re f BT 10.8 0 0 10.8 296.401 334.819 Tm 0 g [(0,71)-4027.8(0,70)]TJ /TT10 1 Tf 11.5556 0 TD (0,66)Tj ET 0.8 1 0.8 rg 462.241 332.179 61.68 12 re f 463.441 332.419 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 334.819 Tm 0 g (1,07)Tj ET 70.321 344.419 90.24 0.72 re f 160.561 344.659 51.6 0.48 re f 0.8 1 0.8 rg 160.561 344.419 51.6 0.24 re f 0 g 212.161 344.419 0.48 0.72 re f 212.641 344.659 61.92 0.48 re f 274.561 344.419 0.48 0.72 re f 275.041 344.659 61.92 0.48 re f 336.961 344.419 0.48 0.72 re f 337.441 344.659 61.92 0.48 re f 399.361 344.419 0.48 0.72 re f 399.841 344.659 61.68 0.48 re f 461.521 344.419 63.12 0.72 re f 70.321 332.179 0.72 12.24 re f 159.841 332.179 0.72 12.24 re f 212.161 332.179 0.48 12.24 re f 274.561 332.179 0.48 12.24 re f 336.961 332.179 0.48 12.24 re f 399.361 332.179 0.48 12.24 re f 461.521 332.179 0.72 12.24 re f 523.921 332.179 0.72 12.24 re f BT /TT6 1 Tf 10.8 0 0 10.8 174.961 321.859 Tm [(L112)-3355.8(0,14)-4027.8(0,14)]TJ ET 0.753 g 358.801 319.459 18.96 12 re f BT 10.8 0 0 10.8 358.801 321.859 Tm 0 g (0,15)Tj /TT10 1 Tf 5.7778 0 TD (0,10)Tj /TT8 1 Tf 6.5111 0 TD (/)Tj ET 70.321 331.459 90.24 0.72 re f 160.561 331.699 51.6 0.48 re f 212.161 331.459 0.48 0.72 re f 212.641 331.699 61.92 0.48 re f 274.561 331.459 0.48 0.72 re f 275.041 331.699 61.92 0.48 re f 336.961 331.459 0.48 0.72 re f 337.441 331.699 61.92 0.48 re f 399.361 331.459 0.48 0.72 re f 399.841 331.699 61.68 0.48 re f 461.521 331.459 63.12 0.72 re f 70.321 319.459 0.72 12 re f 159.841 319.459 0.72 12 re f 212.161 319.459 0.48 12 re f 274.561 319.459 0.48 12 re f 336.961 319.459 0.48 12 re f 399.361 319.459 0.48 12 re f 461.521 319.459 0.72 12 re f 523.921 319.459 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 315.8591 Tm (BVC 1 + pro 3.1a)Tj ET 0.8 1 1 rg 160.561 306.739 51.6 12 re f 161.761 306.739 49.2 12 re f BT 10.8 0 0 10.8 174.961 309.139 Tm 0 g [(L113)-3355.8(0,14)-4027.8(0,14)]TJ ET 0.753 g 358.801 306.739 18.96 12 re f BT 10.8 0 0 10.8 358.801 309.139 Tm 0 g (0,15)Tj /TT10 1 Tf 5.7778 0 TD (0,21)Tj ET 0.8 1 1 rg 462.241 306.739 61.68 12 re f 463.441 306.739 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 309.139 Tm 0 g (0,71)Tj ET 70.321 318.739 0.72 0.72 re f 159.841 318.739 0.72 0.72 re f 160.561 318.979 51.6 0.48 re f 0.8 1 1 rg 160.561 318.739 51.6 0.24 re f 0 g 212.161 318.739 0.48 0.72 re f 212.641 318.979 61.92 0.48 re f 274.561 318.739 0.48 0.72 re f 275.041 318.979 61.92 0.48 re f 336.961 318.739 0.48 0.72 re f 337.441 318.979 61.92 0.48 re f 399.361 318.739 0.48 0.72 re f 399.841 318.979 61.68 0.48 re f 461.521 318.739 63.12 0.72 re f 70.321 306.739 0.72 12 re f 159.841 306.739 0.72 12 re f 212.161 306.739 0.48 12 re f 274.561 306.739 0.48 12 re f 336.961 306.739 0.48 12 re f 399.361 306.739 0.48 12 re f 461.521 306.739 0.72 12 re f 523.921 306.739 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 296.4191 Tm (BVC 3.2 + pro3.1b)Tj ET 0.8 1 1 rg 160.561 294.019 51.6 12 re f 161.761 294.019 49.2 12 re f BT 10.8 0 0 10.8 174.961 296.4191 Tm 0 g (L120)Tj ET 0.753 g 234.001 294.019 18.96 12 re f BT 10.8 0 0 10.8 234.001 296.4191 Tm 0 g [(0,85)-4027.8(0,80)-4027.8(0,74)]TJ /TT10 1 Tf 17.3333 0 TD (1,10)Tj ET 0.8 1 1 rg 462.241 294.019 61.68 12 re f 463.441 294.019 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 296.4191 Tm 0 g (0,77)Tj ET 70.321 306.019 90.24 0.72 re f 160.561 306.259 51.6 0.48 re f 0.8 1 1 rg 160.561 306.019 51.6 0.24 re f 0 g 212.161 306.019 0.48 0.72 re f 212.641 306.259 61.92 0.48 re f 274.561 306.019 0.48 0.72 re f 275.041 306.259 61.92 0.48 re f 336.961 306.019 0.48 0.72 re f 337.441 306.259 61.92 0.48 re f 399.361 306.019 0.48 0.72 re f 399.841 306.259 61.68 0.48 re f 461.521 306.019 63.12 0.72 re f 70.321 294.019 0.72 12 re f 159.841 294.019 0.72 12 re f 212.161 294.019 0.48 12 re f 274.561 294.019 0.48 12 re f 336.961 294.019 0.48 12 re f 399.361 294.019 0.48 12 re f 461.521 294.019 0.72 12 re f 523.921 294.019 0.72 12 re f 0.8 1 1 rg 160.561 281.299 51.6 12 re f 161.761 281.299 49.2 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 174.961 283.699 Tm 0 g (L121)Tj ET 0.753 g 234.001 281.299 18.96 12 re f BT 10.8 0 0 10.8 234.001 283.699 Tm 0 g [(0,36)-4027.8(0,31)-4027.8(0,28)]TJ /TT10 1 Tf 17.3333 0 TD (0,54)Tj ET 0.8 1 1 rg 462.241 281.299 61.68 12 re f 463.441 281.299 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 283.699 Tm 0 g (0,66)Tj ET 70.321 293.299 90.24 0.72 re f 160.561 293.539 51.6 0.48 re f 0.8 1 1 rg 160.561 293.299 51.6 0.24 re f 0 g 212.161 293.299 0.48 0.72 re f 212.641 293.539 61.92 0.48 re f 274.561 293.299 0.48 0.72 re f 275.041 293.539 61.92 0.48 re f 336.961 293.299 0.48 0.72 re f 337.441 293.539 61.92 0.48 re f 399.361 293.299 0.48 0.72 re f 399.841 293.539 61.68 0.48 re f 461.521 293.299 63.12 0.72 re f 70.321 281.299 0.72 12 re f 159.841 281.299 0.72 12 re f 212.161 281.299 0.48 12 re f 274.561 281.299 0.48 12 re f 336.961 281.299 0.48 12 re f 399.361 281.299 0.48 12 re f 461.521 281.299 0.72 12 re f 523.921 281.299 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 283.699 Tm (BVC 3.2+)Tj 0 -1.1111 TD (pro \(3.1b+4.1b\))Tj ET 0.8 1 1 rg 160.561 268.579 51.6 12 re f 161.761 268.579 49.2 12 re f BT 10.8 0 0 10.8 174.961 270.9791 Tm 0 g (L122)Tj ET 0.753 g 234.001 268.579 18.96 12 re f BT 10.8 0 0 10.8 234.001 270.9791 Tm 0 g [(1,14)-4027.8(1,08)-4027.8(0,99)]TJ /TT10 1 Tf 17.3333 0 TD (1,20)Tj ET 0.8 1 1 rg 462.241 268.579 61.68 12 re f 463.441 268.579 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 270.9791 Tm 0 g (0,95)Tj ET 70.321 280.579 0.72 0.72 re f 159.841 280.579 0.72 0.72 re f 160.561 280.819 51.6 0.48 re f 0.8 1 1 rg 160.561 280.579 51.6 0.24 re f 0 g 212.161 280.579 0.48 0.72 re f 212.641 280.819 61.92 0.48 re f 274.561 280.579 0.48 0.72 re f 275.041 280.819 61.92 0.48 re f 336.961 280.579 0.48 0.72 re f 337.441 280.819 61.92 0.48 re f 399.361 280.579 0.48 0.72 re f 399.841 280.819 61.68 0.48 re f 461.521 280.579 63.12 0.72 re f 70.321 268.579 0.72 12 re f 159.841 268.579 0.72 12 re f 212.161 268.579 0.48 12 re f 274.561 268.579 0.48 12 re f 336.961 268.579 0.48 12 re f 399.361 268.579 0.48 12 re f 461.521 268.579 0.72 12 re f 523.921 268.579 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 258.259 Tm (BVC \(1+2+3+4.1\))Tj ET 0.8 1 1 rg 160.561 255.859 51.6 12 re f 161.761 255.859 49.2 12 re f BT 10.8 0 0 10.8 174.961 258.259 Tm 0 g [(L125)-3355.8(2,26)]TJ ET 0.753 g 296.401 255.859 18.96 12 re f BT 10.8 0 0 10.8 296.401 258.259 Tm 0 g [(2,44)-4027.8(2,43)]TJ /TT10 1 Tf 11.5556 0 TD (6,03)Tj ET 0.8 1 1 rg 462.241 255.859 61.68 12 re f 463.441 255.859 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 258.259 Tm 0 g (0,40)Tj ET 70.321 267.859 90.24 0.72 re f 160.561 268.099 51.6 0.48 re f 0.8 1 1 rg 160.561 267.859 51.6 0.24 re f 0 g 212.161 267.859 0.48 0.72 re f 212.641 268.099 61.92 0.48 re f 274.561 267.859 0.48 0.72 re f 275.041 268.099 61.92 0.48 re f 336.961 267.859 0.48 0.72 re f 337.441 268.099 61.92 0.48 re f 399.361 267.859 0.48 0.72 re f 399.841 268.099 61.68 0.48 re f 461.521 267.859 63.12 0.72 re f 70.321 255.859 0.72 12 re f 159.841 255.859 0.72 12 re f 212.161 255.859 0.48 12 re f 274.561 255.859 0.48 12 re f 336.961 255.859 0.48 12 re f 399.361 255.859 0.48 12 re f 461.521 255.859 0.72 12 re f 523.921 255.859 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 245.539 Tm (BVC 4.3)Tj ET 0.8 1 1 rg 160.561 243.139 51.6 12 re f 161.761 243.139 49.2 12 re f BT 10.8 0 0 10.8 174.961 245.539 Tm 0 g [(L130)-3355.8(0,46)-4027.8(0,52)]TJ ET 0.753 g 358.801 243.139 18.96 12 re f BT 10.8 0 0 10.8 358.801 245.539 Tm 0 g (0,52)Tj /TT10 1 Tf 5.7778 0 TD (0,62)Tj ET 0.8 1 1 rg 462.241 243.139 61.68 12 re f 463.441 243.139 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 245.539 Tm 0 g (0,84)Tj ET 70.321 255.139 90.24 0.72 re f 160.561 255.379 51.6 0.48 re f 0.8 1 1 rg 160.561 255.139 51.6 0.24 re f 0 g 212.161 255.139 0.48 0.72 re f 212.641 255.379 61.92 0.48 re f 274.561 255.139 0.48 0.72 re f 275.041 255.379 61.92 0.48 re f 336.961 255.139 0.48 0.72 re f 337.441 255.379 61.92 0.48 re f 399.361 255.139 0.48 0.72 re f 399.841 255.379 61.68 0.48 re f 461.521 255.139 63.12 0.72 re f 70.321 243.139 0.72 12 re f 159.841 243.139 0.72 12 re f 212.161 243.139 0.48 12 re f 274.561 243.139 0.48 12 re f 336.961 243.139 0.48 12 re f 399.361 243.139 0.48 12 re f 461.521 243.139 0.72 12 re f 523.921 243.139 0.72 12 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 232.819 Tm (BVC 4.2)Tj ET 0.8 1 1 rg 160.561 230.179 51.6 12 re f 161.761 230.419 49.2 12 re f BT 10.8 0 0 10.8 174.961 232.819 Tm 0 g (L140)Tj ET 0.753 g 234.001 230.419 18.96 12 re f BT 10.8 0 0 10.8 234.001 232.819 Tm 0 g [(0,45)-4027.8(0,41)-4027.8(0,37)]TJ /TT10 1 Tf 17.3333 0 TD (0,70)Tj ET 0.8 1 1 rg 462.241 230.179 61.68 12 re f 463.441 230.419 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 232.819 Tm 0 g (0,64)Tj ET 70.321 242.419 90.24 0.72 re f 160.561 242.659 51.6 0.48 re f 0.8 1 1 rg 160.561 242.419 51.6 0.24 re f 0 g 212.161 242.419 0.48 0.72 re f 212.641 242.659 61.92 0.48 re f 274.561 242.419 0.48 0.72 re f 275.041 242.659 61.92 0.48 re f 336.961 242.419 0.48 0.72 re f 337.441 242.659 61.92 0.48 re f 399.361 242.419 0.48 0.72 re f 399.841 242.659 61.68 0.48 re f 461.521 242.419 63.12 0.72 re f 70.321 230.179 0.72 12.24 re f 159.841 230.179 0.72 12.24 re f 212.161 230.179 0.48 12.24 re f 274.561 230.179 0.48 12.24 re f 336.961 230.179 0.48 12.24 re f 399.361 230.179 0.48 12.24 re f 461.521 230.179 0.72 12.24 re f 523.921 230.179 0.72 12.24 re f BT /TT6 1 Tf 10.8 0 0 10.8 72.241 219.8591 Tm 0.005 Tw (BVC tot)Tj ET 0.8 1 1 rg 160.561 217.459 51.6 12 re f 161.761 217.459 49.2 12 re f BT 10.8 0 0 10.8 174.961 219.8591 Tm 0 g 0 Tw [(L150)-3355.8(2,55)]TJ ET 0.753 g 296.401 217.459 18.96 12 re f BT 10.8 0 0 10.8 296.401 219.8591 Tm 0 g [(2,69)-4027.8(2,68)]TJ /TT10 1 Tf 11.5556 0 TD (3,65)Tj ET 0.8 1 1 rg 462.241 217.459 61.68 12 re f 463.441 217.459 59.52 12 re f BT /TT8 1 Tf 10.8 0 0 10.8 483.601 219.8591 Tm 0 g (0,74)Tj ET 70.321 229.459 90.24 0.72 re f 160.561 229.699 51.6 0.48 re f 0.8 1 1 rg 160.561 229.459 51.6 0.24 re f 0 g 212.161 229.459 0.48 0.72 re f 212.641 229.699 61.92 0.48 re f 274.561 229.459 0.48 0.72 re f 275.041 229.699 61.92 0.48 re f 336.961 229.459 0.48 0.72 re f 337.441 229.699 61.92 0.48 re f 399.361 229.459 0.48 0.72 re f 399.841 229.699 61.68 0.48 re f 461.521 229.459 63.12 0.72 re f 70.321 216.739 0.72 12.72 re f 71.041 216.739 88.8 0.72 re f 159.841 216.739 0.72 12.72 re f 160.561 216.979 51.6 0.48 re f 212.161 216.979 0.48 12.48 re f 212.641 216.979 61.92 0.48 re f 274.561 216.979 0.48 12.48 re f 275.041 216.979 61.92 0.48 re f 336.961 216.979 0.48 12.48 re f 337.441 216.979 61.92 0.48 re f 399.361 216.979 0.48 12.48 re f 399.841 216.979 61.68 0.48 re f 461.521 216.739 0.72 12.72 re f 462.241 216.739 61.68 0.72 re f 523.921 216.739 0.72 12.72 re f BT /TT6 1 Tf 12 0 0 12 97.681 195.1391 Tm 0.0154 Tc 0.1544 Tw (Le tronçon L112 correspond à la sortie du bassin de rétention, volontairement sous)Tj -2.94 -1 TD 0 Tc 0.0001 Tw (dimensionné pour la mise en charge du bassin.)Tj 2.94 -2 TD 0.0077 Tc 0.0771 Tw (Quelques tronçons seront mis en charge, mais aucun débordement n’aura lieu pour des)Tj -2.94 -1 TD 0.003 Tc 0.0297 Tw (pluies décennales. Seule le tronçon L35 est fortement mis en charge, mais cette saturation est de)Tj T* 0 Tc 0.0002 Tw (courte durée est les éventuels débordements ne représenteront que de faibles volumes.)Tj ET endstream endobj 103 0 obj << /ProcSet [/PDF /Text ] /Font << /TT2 4 0 R /TT4 5 0 R /TT6 6 0 R /TT8 7 0 R /TT10 13 0 R >> /ExtGState << /GS1 8 0 R >> >> endobj 105 0 obj << /Length 18463 >> stream BT /TT2 1 Tf 10.8 0 0 10.8 62.401 796.339 Tm 0 g /GS1 gs 0 Tc 0 Tw [(Etude hydraulique – Saint Julien de )-5.9(Concelles)-17177.6(Avril 2004)]TJ ET 60.961 792.499 473.04 0.48 re f BT 9.84 0 0 9.84 62.401 80.6591 Tm (S.I.C.A.A. Etudes – Z.I. Le Petit Bourbon – B.P. 38 – 85170 BELLEVILLE SUR VIE)Tj 10.8 0 0 10.8 493.201 80.6591 Tm 0.01 Tw (p. 30)Tj ET 60.961 91.219 473.04 0.48 re f 0.898 0.949 1 rg 60.961 734.179 473.04 12.96 re f BT /TT4 1 Tf 13.92 0 0 13.92 104.881 737.7791 Tm 0 g 0 Tw (3 – P)Tj 10.8 0 0 10.8 134.2639 737.7791 Tm 0.0004 Tw (HASAGE DES TRAVAUX ET ESTIMATIF FINANCIER)Tj ET 60.961 733.699 473.04 0.48 re f BT /TT6 1 Tf 12 0 0 12 97.681 696.979 Tm 0.0111 Tc 0.1143 Tw [(Du fait de l’importance des opérations, les travaux pourront être )11.5(réalisés )11.5(en )11.5(plusieurs)]TJ -2.94 -1 TD 0 Tc 0 Tw (phases.)Tj 2.94 -2 TD 0.0001 Tw (Le programme serait le suivant :)Tj /TT10 1 Tf 2.38 -1.24 TD 0 Tw (Phase 1 )Tj /TT6 1 Tf 3.4438 0 TD (: Création du bassin de rétention amont secteur de la Graholière.)Tj /TT10 1 Tf -3.4438 -1.26 TD 0.0003 Tc 0.0028 Tw (Phase 2 )Tj /TT6 1 Tf 3.4489 0 TD 0.0002 Tc 0.0021 Tw (: Réfection des réseaux en amont de ce bassin créé \(La Petite Courbe et –Le)Tj -3.4489 -1 TD 0 Tc 0 Tw (Village Joli\).)Tj /TT10 1 Tf 0 -1.24 TD 0.0053 Tc 0.0525 Tw (Phase 3 )Tj /TT6 1 Tf 3.5385 0 TD 0.0038 Tc 0.0381 Tw (: Réfection des réseaux au niveau du carrefour et de la rue de Boulay. 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