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DISEÑO DE CANALES SECCION TRAPEZOIDAL
RESALTO HIDRAULICO
USANDO DATOS DEL TRAMO IIIDATOS:
CAUDAL(Q)= 0.32 TALUD(z)=SOLERA(b)= 0.4 RUGOSIDAD(n)=TIRANTE(y)= 0.508
resalto hidraulico para seccion trapezoidal(conociendo tirante subcritico):
ademas: r=considerando del punto B: t=
Resolviendo la ecuacion: J=
y1=
los valores que se obtienen son: PUNTO BQ = b = y2 = A = V = P = T =
FROUDE F = REGIMEN =
TIPO DE RESALTOFINALMENTE
Columna1 Columna2 Columna3PUNTO A
CAUDAL Q = SOLERA b =
TIRANTES CONJUGADOS y1 = AREA HIDRAULICA A1 =
VELOCIDAD V1 = PERIMETRO MOJADO P1 =
ESPEJO DE AGUA E1=ENERGIA T1 = FROUDE F1 =
REGIMEN SUPERCRITICO
PENDIENTE S1
PERDIDAS DE CARGA (∆E) ∆E=E1-E2
ALTURA DEL RESALTO(∆Y) 0.2930144
LONGITUD DEL RESALTOSEGÚN SIENCHIN
SEGÚN PAVLOVSKI
EFICIENCIA DEL RESALTO 1.03693905446971
Y1Y2TALUDCAUDALBASE
Columna1Y
0.10.20.30.40.50.60.70.80.9
11.11.2
1.31.41.5
Columna1Y
0.90.1
0.110.120.16
0.20.240.280.320.520.720.921.121.321.521.721.922.122.32
DISEÑO DE CANALES SECCION TRAPEZOIDAL
RESALTO HIDRAULICO
10.015
0.04828787787282020.78740157480315
0.4232000000000
0.2149856
Columna1 PUNTO A Columna10.32 Q = 0.320.4 b = 0.4
0.508 y1 = 0.21498560.461264 A = 0.1322130482074
0.693745880883832 V = 2.42033599813931.83684097937106 P = 1.0080711024698
1.416 T = 0.82997120.388081339026047 F = 1.936134433272
SUBCRITICO SUPERCRITICORESALTO DEBIL
Columna4 Columna5 Columna6PUNTO B
0.32 Q = 0.320.4 b = 0.4
0.2149856 y2 = 0.5080.13221304820736 A 2= 0.461264
2.4203359981393 V2 = 0.69374588088381.00807110246983 P2 = 1.8368409793711
0.513559827517276 E2= 0.53253024195940.8299712 T 2= 1.416
1.93613443327173 F2 = 0.388081339026SUBCRITICO
0.0197797954490544 S2 0.001
-0.0189704144421164
TALUD Z 0 0.5 0.75 1 1.25K 5 7.9 9.2 10.6 12.6
L=k(y2-y1) 3.10595264
L=2.5(1.9Y2-Y1) 1.875536
CURVA DE FUERZA ESPECIFICA
0.2150.508
10.32
0.4
Columna2 Columna3 Columna4AREA YG F
0.052 0.46794871794872 0.33798502313180.124 0.44623655913978 0.18686468711980.216 0.43055555555556 0.16850874013670.328 0.41869918699187 0.1870586012282
0.46 0.40942028985507 0.22378961131060.612 0.40196078431373 0.27265014357760.784 0.39583333333333 0.33113676173830.976 0.39071038251366 0.39804428401931.188 0.38636363636364 0.472728861843
1.42 0.38262910798122 0.55481916986121.672 0.37938596491228 0.64408805095861.944 0.37654320987654 0.7403898600152
0 0.2 0.4 0.6 0.8 1 1.20
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
CURVA F-Y
CURVA F-Y
F
y
yc
2.236 0.37403100775194 0.84362755867752.548 0.37179487179487 0.9537343882272
2.88 0.36979166666667 1.0706631555103
CURVA DE ENERGIA ESPECIFICA
Columna2E
0.9033509795918641.9348623853211
1.567530944329341.298078762764720.731383226455720.51855249745158
0.4344290145578490.4065346937479790.4064128953590440.5400429279109310.7270541139068610.923110426829153
1.121582779020651.320889894966261.520538584527861.720344996660111.920231187888892.12016072028837
2.3201151939654 TIRANTE CRITI 0.3
0 0.2 0.4 0.6 0.8 1 1.20
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
CURVA F-Y
CURVA F-Y
F
y
Fmin
0 0.5 1 1.5 2 2.50
0.5
1
1.5
2
2.5
Curva de energía específica
Energia
tiran
te
A B
1.515
0 0.2 0.4 0.6 0.8 1 1.20
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
CURVA F-Y
CURVA F-Y
F
y
TIRANTE CRITI 0.3 Columna1 Columna2 Columna3FZA ESP MINIMA 0.17
Columna1 Columna2 Columna3TIRANTE CRITICO 0.42
Columna1 Columna2 Columna3ENERGIA ESP MIN 0.4064
0 0.2 0.4 0.6 0.8 1 1.20
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
CURVA F-Y
CURVA F-Y
F
y
0 0.5 1 1.5 2 2.50
0.5
1
1.5
2
2.5
Curva de energía específica
Energia
tiran
te