ACUEDUCTO 1ACUEDUCTO ( PUENTE CANAL) ELEVACIONCONDUCTO ELEVADO: PUENTE CANALMETODO BUREAU RECLAMATION U.SCanal A. ArribaLteTramo L1Tramo L2Tramo L3LtsCanal A. Abajo5.00 m6.00 m5.00 mPARAMETROSCANALDUCTOQ1.0001.000h1(v1)CaH2Cdv0.9501.400s1Cbh2 (v2)QCch3(v3)b0.7501.200s2s3z1.0000.000n0.0140.014s0.0040.002L16.000yoQ*n/s^0.50.2210.313h10.5000.60A=b*h+b*h^20.5630.72P=b+2*h*(1+z2)^0.52.1642.40L(A^5/P^2)^(1/3)0.2290.323B=b+2*h*Z1.751.20PERDIDAS ENTRADA/SALIDAACUEDUCTO ( PUENTE CANAL) PLANTACx0.3Co0.5=12.5=12.5Pe(1+Cx)*(V2^2-V1^2)/2*g0.07z1,h1z3,h1Ps(1-C0)*(V2^2-V3^2)/2*g0.03z2,h2ANGULO DE TRANSICION12.5Qb2/2Qb1/2b3/2LTe=((b1/2+Z*h1)-b2/2)/TAN 1.24LTs=((b3/2)-(b2/2+Z*h2))/TAN 1.01COTASCa4.00Canal Aguas ArribaTransicin EAcueductoTransicin SCanal Aguas AbajoCbCa + h1 - (h2 + Pe)3.830.17CcCb - L * s3.800.03CdCc - h3 + (h2 + Ps)3.92-0.13HCa-Cd0.08dhvE * Cx + L * s + dhvS * Co0.08dhvE * Cx0.016L * s0.032dhvS * Co0.027ALCANTARILLA ELEVACIONCanal A. ArribaTransicin EAlcantarillaTransicin SCanal Aguas AbajoALCANTARILLAS: METODO ILRIParametroscanalconductoh0.50.6b0.751.2z10V0.951.4h1(v1)CaA0.6250.720s1QCbh2 (v2)H2QCch3(v3)Cd1.152s2s3P2.4R0.30Be0.500n0.014LL (L-Remanzo)50.00Bf=2*g*n^2*L/R^20.957Bs0.023Z0.15V^2/2g0.0999Ca150.00150.00Cb149.85149.850.15ALCANTARILLA PLANTACc149.75149.750.10Cd149.86149.86-0.10=12.5=12.5h=Ca-Cd0.140.14z1,h1z3,h1z2,h2NOTA : Calculo del tirante"ho" del curso naturalQb2/2Qb1/2b3/2ParametrosC.NaturalQ65.000b16.000Canal Aguas ArribaTransicin EAcueductoTransicin SCanal Aguas Abajobe15.20z0.000s0.007n0.040Q*n/s^0.531.076yo0.81A=b*h+b*h^212.312P=b+2*h*(1+z2)^0.516.82(A^5/P^2)^(1/3)31.62