diseño completo de bombeo

Potencia de la Bomba

0.74 lts/seg.

63.94 m3/diaQ medio = 0.32 lts/segQ diseno = 0.38 lts/seg

1 min 60 seg1 hr 60 min1 dia 24 hrs1 m3 1000 lts1 gal 3.78 lts

Alternativa 2.5-2.0 1.75-2.0 1.5-2.0 2.5-2.5 2.5-2.0 2.5

mts. 33.88 34.41 39.14 37.41 37.41 33.68

(Q * Altura dinamica) / (76 * eficiencia)

0.60

Factor 76.00 conversion

5.00 HP

Q bombeo 6.09 lts/seg.

Factor 3.6 conversion

4.5 m3. asumido por condiciones constructivas

0.23 hrs.

14.01 min. 18 m3.7.68 hrs.

6,081.08 seg. 15 m3.

1.69 hrs. 6.4 hrs.6 m3.

5.07 hrs. 2.56 hrs.A = 1.25 m3 4.5 m3.VF = 65.12 m3 1.92 hrs.

20.35 m3 1.69 hrs.

Caudal de la fuente

Caudal de la fuente

Altura Dinamica Total

Potencia de la Bomba =

Eficiencia de la bomba


Volumen tanque de succion =

Tiempo de vaciado del

tanque

Tiempo de vaciado del

tanque

tiempo de llenado del tanque de

succion

tiempo de llenado del tanque de

succion

Periodo de Bombeo

23.65 %

5.00 m3. asumido

KLQ2hf = 6.84 mts.L = 336.52 mts.

n (PVC)= 0.009 K = 2,025.49 Q = 0.00317 lts/seg

1,578.37 seg.

26.31 min 1.25

0.44 hrs.

Si se tiene un tanque de regularizacion de 6m3 tenemos un caudal de :Q = A * V Volumen / tiempo

tenemos un diametro de 2.5 plgsArea = 0.0032 m2Volumen = 6.00 m3

13,043.48 seg.

3.62 hrs.

Vmax = 2.50 m/sV min= 0.60 m/s

0.00190015305 m3/seg

0.00791730436 m3/seg

757.83 seg

Volumen requerido del

que produce la fuente

Tanque de regularizacion

Perdidas por friccion hf =

Tiempo de Vaciado de tanque de

regularizacion


regularizacion


regularizacion

Vaciado de tanque de

regularizacion

Vaciado de tanque de

regularizacion

minimo Volumen evacuado =

maximo Volumen evacuado =

Tiempo de vaciado maximo =

3,157.64 seg

52.63 min.

12.63 min.


Se decide colocar un motor de corriente electrica, debiendo considerar la acometida hasta el punto de bombeo.y ademas la eficiencia es mayor en un motor electrico.

Volumen del tanque de succion (bombeo continuo)

Volumen = #REF!Dimensiones: #REF! m.

ancho 2.00 m.largo 2.00 m.altura 2.50 m.

redondeando : 10.00

#REF!

0.50 < #REF! m.

Carga neta de succion positiva NPSH

Carga neta de succion disponible:NPSH disponible >= NPSH del equipo

El limite teorico de aspiracion es la presion atmosferica es decir 10.33 m.con agua fria a 4oCSon muy raros los equipos de bombeo con 8 y 9 m. de aspiracion.

NPSH disponible = HA - (HVP + Hf + HS+ Hm)NPSH disponible = 7.10 m. 6.87 m.

Presion del vapor del liquido a la temperatura de bombeo = HVP

Datos T = 27

InterpolandoTemperatura Presion

mca.25 0.32327 x30 0.433

HVP = 0.367 mca.

Presion Atmosferica en la superficie del liquido= HA

Tiempo de vaciado maximo =

Tiempo de vaciado maximo=

Tiempo de vaciado minimo =

m3

m3

Volumen adicional m3

altura sobre la boca de succion

oC

oC

C94

BOBBI JO SMALL: Esta carga se obtuvo con el dato medido en campo con altimetro de Ing. Bocaletti. 240 msnm.

E94

BOBBI JO SMALL: Esta carga es con el dato del topografo de 420 msnm.

Poblacion Altura pies Presion pies

240 787.2

Interpolando Interpolandoaltura mca. altura mca.

0 10.33 300 9.966240 x 430 x300 9.966 600 9.608

HA = 10.0388 mca. HA = 9.8109 mca.

Perdida por friccion = Hf Carga estatica de succion = Hm

Viscocidad Cinematica del agua = v 1 (k = 0.65) 0.65Interpolando 1 Pichacha (k = 13.00) 13

1 Valvula de pie (k = 0.80) 0.8

Temperatura Presion 1 (k = 0.31) 0.31

mca. Total k = 14.7626 0.87627 x28 0.839

v = 8.575E-07

g = 9.80665

Alternativa Velocidad Diametro HfD-2.5-2-N26 0.29 8.00 0.0635 21,512.46 NR > 2,000 0.018642 0.010

D-1.75-2-N26 0.82 8.00 0.0762 73,072.22 NR > 2,000 0.018642 0.067 D-1.75-2-N37 0.34 8.00 0.0381 14,939.21 NR > 2,000 0.018642 0.023 D-2.5-2.5-N37 0.12 8.00 0.0635 8,963.53 NR > 2,000 0.018642 0.002 D-2.5-2-N37 0.12 8.00 0.0635 8,963.53 NR > 2,000 0.018642 0.002 D-2.5-N47 0.12 8.00 0.0635 8,963.53 NR > 2,000 0.018642 0.002

Carga estatica de succion = HS 2.50 m.

Altura mts. S.N.M.

Altura de Nacimiento

Codo de 90 o

Reductor excentrico

oC

m2/seg

m/seg2

L ongitud de succion (mts.)

Numero de Reynolds v

Regimen turbulento

Coeficiente de friccion f

Hm0.0635 0.5089 0.0851 0.0110 0.0110 0.0110


Q medio = 0.32 lts/segQ medio = 27.60 m3/diaQ medio = 72.45 gal/min

Q diseno = 0.38 lts/seg33.12 m3/dia

1 min 60 seg1 hr 60 min1 dia 24 hrs1 m3 1000 lts1 gal 3.78 lts

Alternativa 1 2 3 4 5 6

mts. 33.88 34.41 39.14 37.41 37.41 33.68

0.6

<

0.74 < 0.92 lts/seg.

Q Diseno Volumen

Hrs. lts/seg. lts/seg. gal/min m3/dia HP HP HP3 0.38 3.07 48.68 264.96 2.28 2.31 2.63 4 0.38 2.30 36.51 198.72 1.71 1.74 1.97 6 0.38 1.53 24.34 132.48 1.14 1.16 1.32 8 0.38 1.15 18.25 99.36 0.85 0.87 0.99

10 0.38 0.92 14.60 79.49 0.68 0.69 0.79 12 0.38 0.77 12.17 66.24 0.57 0.58 0.66 14 0.38 0.66 10.43 56.78 0.49 0.50 0.56 16 0.38 0.58 9.13 49.68 0.43 0.43 0.49 18 0.38 0.51 8.11 44.16 0.38 0.39 0.44 20 0.38 0.46 7.30 39.74 0.34 0.35 0.39

Si se tiene un tanque de 6m3 tenemos un caudal de :Q = A * V Volumen / tiempoSi tenemos un diametro de 2.5 plgsArea = 0.0032 m2V = 0.60 m/sVolumen = 6.00 m3

0.001900153 m3/seg

3,157.64 seg

52.63 min.

Q Bombeo= Qmedio * 1.2 * (24 horas)/ (tiempo de bombeo)

Altura Dinamica

Total

Eficiencia de la bomba

Caudal de la fuente

Caudal de bombeo

No. de horas de bombeo

Q Bombeo Q BombeoCaballaje D-2.5-2-N26

Caballaje D-1.5-2-

N26

Caballaje D-1.5-2-

N37

Volumen evacuado =

Tiempo de vaciado =

Tiempo de vaciado =


Se decide colocar un motor de corriente electrica, debiendo considerar la acometida hasta el punto de bombeo.y ademas la eficiencia es mayor en un motor electrico.

Volumen del tanque de succion (bombeo continuo)

Volumen = 6.5 Dimensiones: 1.86 m.

ancho 2.00 m.largo 2.00 m.altura 2.50 m.

redondeando 10.00

3.52

0.50 < 0.88 m.

Carga neta de succion positiva NPSH

Carga neta de succion disponible:NPSH disponible >= NPSH del equipo

El limite teorico de aspiracion es la presion atmosferica es decir 10.33 m.con agua fria a 4oCSon muy raros los equipos de bombeo con 8 y 9 m. de aspiracion.

NPSH disponible = HA - (HVP + Hf + HS+ Hm)NPSH disponible = 7.10 m. 6.87 m.

Presion del vapor del liquido a la temperatura de bombeo = HVP

Datos T = 27

InterpolandoTemperatura Presion

mca.25 0.32327 x30 0.433

HVP = 0.367 mca.

Presion Atmosferica en la superficie del liquido= HA

Poblacion Altura pies Presion pies

240 787.2

Interpolando Interpolandoaltura mca. altura mca.

m3

m3

Volumen adicional m3

altura sobre la boca de succion

oC

oC

Altura mts. S.N.M.

Altura de Nacimiento

C74

BOBBI JO SMALL: Esta carga se obtuvo con el dato medido en campo con altimetro de Ing. Bocaletti. 240 msnm.

E74

BOBBI JO SMALL: Esta carga es con el dato del topografo de 420 msnm.

0 10.33 300 9.966240 x 430 x300 9.966 600 9.608

HA = 10.0388 mca. HA = 9.8109 mca.

Perdida por friccion = Hf Carga estatica de succion = Hm

Viscocidad Cinematica del agua = v 1 (k = 0.65) 0.65Interpolando 1 Pichacha (k = 13.00) 13

1 Valvula de pie (k = 0.80) 0.8

Temperatura Presion 1 (k = 0.31) 0.31

mca. Total k = 14.7626 0.87627 x28 0.839

v = 8.575E-07

g = 9.80665

Alternativa Velocidad Diametro HfD-2.5-2-N26 0.29 8.00 0.0635 21,512.46 NR > 2,000 0.018642 0.010

D-1.75-2-N26 0.82 8.00 0.0762 73,072.22 NR > 2,000 0.018642 0.067 D-1.75-2-N37 0.34 8.00 0.0381 14,939.21 NR > 2,000 0.018642 0.023 D-2.5-2.5-N37 0.12 8.00 0.0635 8,963.53 NR > 2,000 0.018642 0.002 D-2.5-2-N37 0.12 8.00 0.0635 8,963.53 NR > 2,000 0.018642 0.002 D-2.5-N47 0.12 8.00 0.0635 8,963.53 NR > 2,000 0.018642 0.002

Carga estatica de succion = HS 2.50 m.

Codo de 90 o

Reductor excentrico

oC

m2/seg

m/seg2

L ongitud de succion (mts.)

Numero de Reynolds v

Regimen turbulento

Coeficiente de friccion f

HP HP HP2.52 2.52 2.27 25.1280 1.89 1.89 1.70 22.4640 1.26 1.26 1.13 17.1360 0.94 0.94 0.85 11.8080 0.75 0.75 0.68 6.4800 0.63 0.63 0.57 1.1520 0.54 0.54 0.49 (4.1760)0.47 0.47 0.42 (9.5040)0.42 0.42 0.38 (14.8320)0.38 0.38 0.34 (20.1600)

Caballaje D-2.5-2.5-

N37

Caballaje D-2.5-2-

N37

Caballaje D-2.5-N47

Volumen Tanque

(bombeo continuo)

m3

Se decide colocar un motor de corriente electrica, debiendo considerar la acometida hasta el punto de bombeo.

Hm0.0635 0.5089 0.0851 0.0110 0.0110 0.0110

Requerimento de agua 4,000 gal/dia0.18 lts/seg15.12 m3/dia

aproximando 15 m3

Se tiene un cisterna de 4000 gal15,120.00 lts

15.12 m3Conversiones

1 gal 3.78 lts1 m3 1000 lts1 min 60 seg1 hr 60 min1 dia 24 hrs

Caudal de la fuente 9.90 lts/segRequerimento 0.38 lts/seg

9.58

Para la obra de captacion se tendra un Caudal maximo diario como Caudal de diseno por lo que el volumen es:

33.12 m3 volumen que se requiere en la planta

8 hrs

Realizandose el bombeo de 6:00 a 16:00 hrs. el suministro que proporciona sera:Volumen de regularizacion

dicho bombeo sera: 300 %

C = 375 +900C = 12.75 * QMDC = 45.9 * QMD

Capacidad del tanque 17.60 m3Aproximando tenemos 20 m3

Se necesitaran1 tanque de m31 tanque de 20 m31 tanque de m3

Si se bombea 4 de 6:00 a 10:00 horas se tendra un caudal de Esto quiere decir que se necesitara por lo menos un tanque de

4 hrsQ bombeo = #VALUE! lts/seg

1.92 dicho bombeo sera: 600 %

C = 1590+285 1875 %

Volumen medio diario =

Horas de consumo =

Horas de bombeo =

C = 18.75 * QMD 67.5C = 67.5 * QMD

Capacidad del tanque #VALUE! m3Aproximando tenemos 70 m3

Demandas (Salidas)

Horas Diferencias0-1 0 45 -45 -451-2 0 45 -45 -902-3 0 45 -45 -1353-4 0 45 -45 -1804-5 0 45 -45 -2255-6 0 60 -60 -2856-7 171 90 81 -2047-8 171 135 36 -1688-9 171 150 21 -147

9-10 171 150 21 -12610-11 171 150 21 -10511-12 171 140 31 -7412-13 177 120 57 -1713-14 171 140 31 1414-15 171 140 31 4515-16 171 130 41 8616-17 171 130 41 12717-18 171 120 51 17818-19 171 100 71 24919-20 171 100 71 32020-21 0 90 -90 23021-22 0 90 -90 14022-23 0 80 -80 6023-24 0 60 -60 0

2400 2400 0 -352

Suministros (Entradas) Q bombeo en %

Demanda Horaria en %

Diferencias acumuladas

Para la obra de captacion se tendra un Caudal maximo diario como Caudal de diseno por lo que el volumen es:

1.07142857 m3/hr

171

2394 6

-126-285

CALCULO DE DIAMETRO ECONOMICO PARA EL BOMBEO

DATOS

Caudal de bombeo 0.92 lts/seg. 0.0009

150.00 Costo del kilowatt hora 0.6 QuetzalesHoras de Bombeo 10 Hrs.Eficiencia de la Bomba 0.6

120 mesesTasa de Interes 12 %Costo de Tuberia

1.5 150 Quetzales Energia (Mensual)2 230 Quetzales

2.5 245 Quetzales

Diametro (pulgadas) Alternativa3 D-1.5-2-N26 1,164.81

D-1.5-2-N37 8,879.35 1.75

2 D-2.5-2-N26 24,728.77 D-1.5-2-N26 24,728.77

2.5 D-2.5-2-N26 1,902.52 D-2.5-2.5-N37 28,244.04 D-2.5-2-N37 14,502.95

m3

Coeficiente de Hazen (tuberia)

Tiempo de recuperacion de la inversion

CostoTotal de tuberia

Hf por kilometro

Potencia (Hp)

Vel. Minima = 0.6Vel. Maxima = 2.5

Q = A x V

Diametro Mayor 0.04 m 1.740 plgs.

Diametro Menor 0.02 m 0.852 plgs.I (interes mens.) 0.01Vel. Con D-2.5 = 0.29 m/segVel. Con D-1.5 = 0.82 m/seg

Energia (Mensual) Costo Energia (Quetzales)

Diesel (gal.) Electricidad (KW) Diesel (gal.) Gasolina (gal.)Gasolina

(gal.)

m/segm/seg

Electricidad (2.15206423

Costo Tuberia Futuro

BASES DE DISENO

Fuente

Capacidad de la fuente

Sistema

Periodo de diseno para la linea de

bombeo, conduccion, distribucion,

tanques de regularizacion, captacion :

Periodo de diseno para el equipo de

bombeo

Requerimiento de agua (Q diseno)

Q medio =

Poblacion equivalente

aproximando

Utilizando la tasa de crecimiento geometrico

Poblacion equivalente futura

aproximando

Q medio =

Factor de dia maximo

Q diseno =

Q diseno =

Si se bombea a la estacion "N26" se tiene:

Horas de bombeo =

Q bombeo =

Q bombeo =

Q = A x V

V =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =

Longitud de la descarga =

Diferencia de altura =

Altura de llegada del tanque =

presion sobre el tanque =

K=

pra PVC n=

K=

Perdida de carga =

Perdida de Carga Menores =

Perdida por velocidad =

altura de succion =

longitud de succion

Sobrepresion =

Perdidas Totales =

Altura Dinamica Total =

Diferencia de altura de terreno a :


piezometrica en 1-R

piezometrica en N-26

sobre-presion en 1-R

sobre-presion en N-26

sobre-presion negativa en 1-R

sobre-presion negativa en N-26

Profundidad de la tuberia =

De N-27 a N-47 se tratara de llevar por gravedad.



Ø =

Ø =

Area =

V =

K=

Perdida de carga =



Perdidas Totales =

Carga estatica =

Si la tuberia esta disenada para una presion de trabajo igual o mayor que el doble de la carga dinamica total, no se calcula sobre presion.

Si es necesario el calculo de sobre presion se realiza por la formula de Joukovsky

Altura Dinamica Total * 2

Espesor de la Tuberia PVC

Espesor de la Tuberia HG

Modulo de Elasticidad del:

Agua

PVC

Acero (HG)

C (Hazen Williams)

Presion de Tuberia :

Conversiones

PVC

PVC

HG

Longitud Horizontal Total

Longitud Total de Diseno

Perdida de Carga Total

Si se descarga en N-46 la tuberia saldra del terreno al tanque y se debera descontar la profundidad de tuberia

Aqui termina la linea por bombeo

Aqui empieza la linea por gravedad

1R

4R

N26

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

75

85

95

105

115

125

135

145

155

165

PERFIL DE LINEA DE BOMBEO D-2.5-2.0

ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno

Linea Piezomet-rica

Sobrepresion negativa

Nacimiento

12.00 gls/min 30

0.76 157

0.74 lts/s aforo realizado el 28/02/02

Bombeo

25 anos

10 anos

4,000.00 gal/dia

0.18 lts/seg

126.00 hab.

130.00 hab.


227.85 hab.

230 hab.

0.32 lts/seg

1.2

0.38 lts/seg

0.00038


10.00 hrs.

0.92 lts/seg

0.00092

0.60 m/s Rango de velocidad 0.6 <=V<= 2.5 m/s

0.0015

0.0442 m

1.74 plgs mayor diametro de la tuberia

2.5 plg Utilizando diametro de salida de la bomba existente

0.0635 m

9.81

0.29 m/s la velocidad de acuerdo al nuevo diametro

46.59 m

25.78 m. Cota inicio - cota final

2.50 m.

3.00 m.

10.3n^2/D^(16/3)

0.009

2,025.4851

0.0799 m.

0.0120 m.

0.004301 m. Aproximando tenemos 0.0043 m

2.50 m.

8.00 m.

13.37 m.

0.096 m. Aproximando a dos cifras decimales 0.10 m

33.880 m 48.18 psi

m3/s

m3/s

m2

m/s2

KLQ2

B53

IBM: se debe colocar la altura del tanque en Hoja de calculo de tanques.

31.38 m. punto de salida

5.55 m. punto de llegada

44.65 m.

18.20 m.

(17.91) m.

6.99 m.

0.60 m.

2.60 m.


645.10

3.34

2 plgs. Salida del tanque

0.0508 m.

0.0020

0.1891 m/seg.

6,658.5926

0.6312 m.

0.0947 m.

0.0018 m.

0.7277 m.

3.3400 m.



96.35 psi PVC-160 No se calcula sobrepresion

PVC-250 No se calcula sobrepresion

0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

757.68 m.

768.83 m. calculada con pitagoras

0.795 m.

m2.

kg/cm2

kg/cm2

kg/cm2

psi (lb/pulg2) kg/cm2

CALCULO DE LA LINEA 145*R7(1+((U*Z+E AB+V Y+P

ESTACIÓN LONGITUDCOTAS DEL TERRENO

% INC. L Cota de Tuberia ø (plg) C (Hazen) Hf (mca) Linea Dinamica

INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 92.38 2.5 PVC PVC-160 140.00 0.92 0.054 0.049 0.29 0.523 28,100 20,670 13.37 124.360 44.65

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 111.58 2.5 PVC PVC-160 140.00 0.92 0.034 0.031 0.29 0.523 28,100 20,670 13.37 124.329 25.07

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 120.76 2.5 PVC PVC-160 140.00 0.92 0.022 0.020 0.29 0.523 28,100 20,670 13.37 124.309 18.20

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 118.16 2 PVC PVC-160 140.00 0.38 0.013 0.012 0.19 0.523 28,100 20,670 118.760 0.00

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 118.07 2 PVC PVC-160 140.00 0.38 0.051 0.045 0.19 0.523 28,100 20,670 118.747 0.01

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 117.86 2 PVC PVC-160 140.00 0.38 0.031 0.028 0.19 0.523 28,100 20,670 118.696 0.06

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 117.71 2 PVC PVC-160 140.00 0.38 0.029 0.026 0.19 0.523 28,100 20,670 118.665 0.09

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 117.59 2 PVC PVC-160 140.00 0.38 0.029 0.026 0.19 0.523 28,100 20,670 118.636 0.12

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 117.46 2 PVC PVC-160 140.00 0.38 0.030 0.027 0.19 0.523 28,100 20,670 118.608 0.15

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 117.32 2 PVC PVC-160 140.00 0.38 0.018 0.016 0.19 0.523 28,100 20,670 118.578 0.18

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 117.23 2 PVC PVC-160 140.00 0.38 0.041 0.037 0.19 0.523 28,100 20,670 118.560 0.20

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 116.56 2 PVC PVC-160 140.00 0.38 0.034 0.030 0.19 0.523 28,100 20,670 118.519 0.24

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 116.90 2 PVC PVC-160 140.00 0.38 0.034 0.030 0.19 0.523 28,100 20,670 118.485 0.28

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 120.12 2 PVC PVC-160 140.00 0.38 0.029 0.026 0.19 0.523 28,100 20,670 118.451 0.31

N37 N38 54.57 122.26 116.90 (5.3600) 400.89 54.8326 121.66 2 PVC PVC-160 140.00 0.38 0.060 0.054 0.19 0.523 28,100 20,670 118.421 0.34

N38 N39 17.75 116.9 116.74 (0.1600) 418.64 17.7507 116.30 2 PVC PVC-160 140.00 0.38 0.019 0.017 0.19 0.523 28,100 20,670 118.361 0.40

N39 N40 48.51 116.74 116.51 (0.2300) 467.15 48.5105 116.14 2 PVC PVC-160 140.00 0.38 0.053 0.047 0.19 0.523 28,100 20,670 118.341 0.42

N40 N41 23.71 116.51 116.40 (0.1100) 490.86 23.7103 115.91 2 PVC PVC-160 140.00 0.38 0.026 0.023 0.19 0.523 28,100 20,670 118.288 0.47

N41 N42 18.37 116.4 116.29 (0.1100) 509.23 18.3703 115.80 2 PVC PVC-160 140.00 0.38 0.020 0.018 0.19 0.523 28,100 20,670 118.262 0.50

N42 N43 33.49 116.29 116.13 (0.1600) 542.72 33.4904 115.69 2 PVC PVC-160 140.00 0.38 0.037 0.033 0.19 0.523 28,100 20,670 118.242 0.52

N43 N44 62.20 116.13 115.82 (0.3100) 604.92 62.2008 115.53 2 PVC PVC-160 140.00 0.38 0.068 0.061 0.19 0.523 28,100 20,670 118.205 0.55

N44 N45 39.23 115.82 115.62 (0.2000) 644.15 39.2305 115.22 2 PVC PVC-160 140.00 0.38 0.043 0.038 0.19 0.523 28,100 20,670 118.137 0.62

N45 N46 19.25 115.62 115.52 (0.1000) 663.40 19.2503 115.02 2 PVC PVC-160 140.00 0.38 0.021 0.019 0.19 0.523 28,100 20,670 118.094 0.67

N46 N47 19.17 115.52 115.42 (0.1000) 682.57 19.1703 114.92 2 PVC PVC-160 140.00 0.38 0.021 0.019 0.19 0.523 28,100 20,670 118.072 0.69

N47 108 63.16 115.42 99.30 (16.1200) 745.73 65.1847 114.82 2 PVC PVC-160 140.00 0.38 0.072 0.064 0.19 0.523 28,100 20,670 118.051 0.71

108 99.3

SUB-TOTAL 0.449 0.402

SUB-TOTAL 0.441 0.393

TOTAL 757.68 768.83 0.890 0.795

Se considera la cota 122.26 de la estacion N37 como el punto al cual se bombeara

PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.

Tipo de Tubería (HG

o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)

Espesor Tubería (cms)

Mo. Elas. Mat (kg/cm2)

Mo. Elas.Agua (kg/cm2)

Sobre Presión (mca)

Cota Piezometrica

Resistencia Necesaria de

Tuberia mca.

1R

4R

N26

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

75

85

95

105

115

125

135

145

155

165


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno

Linea Piezomet-rica


(AB-V) X+E

AB+G AC+E =AB(-1)-E-E(=+(AB)-((V/SUMD)*(SUMD-H)))

31.380 110.89 31.28 17.91 137.627

12.149 111.56 12.08 -0.62 137.251

5.549 111.77 5.50 -6.99 136.957

0.000 0.00

0.077 0.09

0.236 0.30

0.355 0.45

0.446 0.57

0.548 0.70

0.658 0.84

0.730 0.93

1.359 1.60

0.985 1.26

-2.269 -1.96

-3.839 -3.50

1.461 1.86

1.601 2.02

1.778 2.25

1.862 2.36

1.952 2.47

2.075 2.63

2.317 2.94

2.474 3.14

2.552 3.24

2.631 3.34

Presión Dinámica

Cota Presión Negativa

Presión Estática

Presión Negativa

Cotas S. Presión Ariete

BASES DE DISENO

Fuente


Sistema





bombeo


Q medio =


aproximando



aproximando

Q medio =


Q diseno =

Q diseno =


Horas de bombeo =

Q bombeo =

Q bombeo =

Q = A x V

V =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =





K=

pra PVC n=

K=

Perdida de carga =



alltura de succion =

longitud de succion =

Sobrepresion =

Perdidas Totales =




piezometrica en 1-R






Profundidad de la tuberia =




Ø =

Ø =

Area =

V =

K=

Perdida de carga =



Perdidas Totales =

Carga estatica =







Agua

PVC

Acero (HG)

C (Hazen Williams)


Conversiones

PVC

PVC

HG





Aqui termina la linea por bombeo

Aqui empieza la linea por gravedad

1R

4R

N26

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

75

85

95

105

115

125

135

145

155

165


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno

Linea Piezomet-rica


POZO

157.00 gls/min 30.00 gls/min 157.00 gls/min

9.89 1.89 9.89

9.9 lts/s aforo realizado el 30/01/2010 1.9 lts/s 9.9 lts/s

Bombeo

25 anos

10 anos

24,000.00 gal/dia 1.05

1.05 lts/seg

1,008.00 hab.

1,000.00 hab.


1,000.00 hab.

1,000 hab.

1.04 lts/seg

1.5

1.56 lts/seg

0.00156


10.00 hrs.

3.75 lts/seg

0.00375

0.60 m/s Rango de velocidad 0.6<=V<=5 m/s

0.0063

0.0892 m

3.51 plgs mayor diametro de la tuberia

3 plg Aproximando al valor mas proximo en el mercado

0.0762 m

9.81


46.59 m


2.50 m.

3.00 m.

10.3n^2/D^(16/3)

0.009

766.0005

0.5019 m.

0.0753 m.


2.50 m.

8.00 m.

34.83 m.


34.410 m 48.93 psi

m3/s

m3/s

m2

m/s2

KLQ2

B53


31.91 m. punto de salida


66.11 m.

38.59 m.

3.55 m.

27.04 m.

0.60 m.

2.60 m.


645.10

3.34


0.0508 m.

0.0020

0.7709 m/seg.

6,658.5926

10.4869 m.

1.5730 m.

0.0303 m.

12.0903 m.

3.3400 m.





0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

757.68 m.


12.177 m.

m2.

kg/cm2

kg/cm2

kg/cm2


CALCULO DE LA LINEA


% INC. L Cota de Tuberia ø (plg) C (Hazen) Hf (mca) Linea Dinamica

INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 92.38 3 PVC PVC-160 140.00 3.75 0.299 0.309 0.82 0.523 28,100 20,670 34.83 124.890 66.11

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 111.58 3 PVC PVC-160 140.00 3.75 0.187 0.193 0.82 0.523 28,100 20,670 34.83 124.697 45.93

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 120.76 3 PVC PVC-160 140.00 3.75 0.125 0.129 0.82 0.523 28,100 20,670 34.83 124.568 38.59

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 118.16 2 PVC PVC-160 140.00 1.56 0.177 0.194 0.77 0.523 28,100 20,670 118.760 0.00

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 118.07 2 PVC PVC-160 140.00 1.56 0.680 0.748 0.77 0.523 28,100 20,670 118.583 0.18

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 117.86 2 PVC PVC-160 140.00 1.56 0.418 0.460 0.77 0.523 28,100 20,670 117.903 0.86

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 117.71 2 PVC PVC-160 140.00 1.56 0.390 0.429 0.77 0.523 28,100 20,670 117.485 1.27

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 117.59 2 PVC PVC-160 140.00 1.56 0.387 0.425 0.77 0.523 28,100 20,670 117.095 1.66

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 117.46 2 PVC PVC-160 140.00 1.56 0.404 0.445 0.77 0.523 28,100 20,670 116.709 2.05

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 117.32 2 PVC PVC-160 140.00 1.56 0.236 0.260 0.77 0.523 28,100 20,670 116.304 2.46

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 117.23 2 PVC PVC-160 140.00 1.56 0.556 0.611 0.77 0.523 28,100 20,670 116.068 2.69

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 116.56 2 PVC PVC-160 140.00 1.56 0.458 0.503 0.77 0.523 28,100 20,670 115.512 3.25

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 116.90 2 PVC PVC-160 140.00 1.56 0.459 0.505 0.77 0.523 28,100 20,670 115.054 3.71

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 120.12 2 PVC PVC-160 140.00 1.56 0.397 0.436 0.77 0.523 28,100 20,670 114.595 4.16

N37 N38 54.57 122.26 116.90 (5.3600) 400.89 54.8326 121.66 2 PVC PVC-160 140.00 1.56 0.811 0.891 0.77 0.523 28,100 20,670 114.199 4.56

N38 N39 17.75 116.9 116.74 (0.1600) 418.64 17.7507 116.30 2 PVC PVC-160 140.00 1.56 0.262 0.289 0.77 0.523 28,100 20,670 113.388 5.37

N39 N40 48.51 116.74 116.51 (0.2300) 467.15 48.5105 116.14 2 PVC PVC-160 140.00 1.56 0.717 0.789 0.77 0.523 28,100 20,670 113.126 5.63

N40 N41 23.71 116.51 116.40 (0.1100) 490.86 23.7103 115.91 2 PVC PVC-160 140.00 1.56 0.350 0.385 0.77 0.523 28,100 20,670 112.409 6.35

N41 N42 18.37 116.4 116.29 (0.1100) 509.23 18.3703 115.80 2 PVC PVC-160 140.00 1.56 0.272 0.299 0.77 0.523 28,100 20,670 112.058 6.70

N42 N43 33.49 116.29 116.13 (0.1600) 542.72 33.4904 115.69 2 PVC PVC-160 140.00 1.56 0.495 0.544 0.77 0.523 28,100 20,670 111.786 6.97

N43 N44 62.20 116.13 115.82 (0.3100) 604.92 62.2008 115.53 2 PVC PVC-160 140.00 1.56 0.919 1.011 0.77 0.523 28,100 20,670 111.291 7.47

N44 N45 39.23 115.82 115.62 (0.2000) 644.15 39.2305 115.22 2 PVC PVC-160 140.00 1.56 0.580 0.638 0.77 0.523 28,100 20,670 110.372 8.39

N45 N46 19.25 115.62 115.52 (0.1000) 663.40 19.2503 115.02 2 PVC PVC-160 140.00 1.56 0.285 0.313 0.77 0.523 28,100 20,670 109.792 8.97

N46 N47 19.17 115.52 115.42 (0.1000) 682.57 19.1703 114.92 2 PVC PVC-160 140.00 1.56 0.283 0.312 0.77 0.523 28,100 20,670 109.508 9.25

N47 108 63.16 115.42 99.30 (16.1200) 745.73 65.1847 114.82 2 PVC PVC-160 140.00 1.56 0.964 1.060 0.77 0.523 28,100 20,670 109.224 9.54

108 99.3

SUB-TOTAL 5.173 5.647

SUB-TOTAL 5.938 6.530

TOTAL 757.68 768.83 11.111 12.177


PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.


o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)





Cota Piezometrica


Tuberia mca.

1R

4R

N26

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

75

85

95

105

115

125

135

145

155

165


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno

Linea Piezomet-rica


31.910 89.43 31.28 -3.55 159.093

12.517 91.17 12.08 -21.01 158.114

5.808 91.72 5.50 -27.04 157.347

0.000 0.00

-0.087 0.09

-0.557 0.30

-0.825 0.45

-1.095 0.57

-1.351 0.70

-1.616 0.84

-1.762 0.93

-1.648 1.60

-2.446 1.26

-6.125 -1.96

-8.061 -3.50

-3.512 1.86

-3.614 2.02

-4.101 2.25

-4.342 2.36

-4.504 2.47

-4.839 2.63

-5.448 2.94

-5.828 3.14

-6.012 3.24

-6.196 3.34

Presión Dinámica


Presión Estática

Presión Negativa


BASES DE DISENO

Fuente


Sistema





bombeo


Q medio =


aproximando



aproximando

Q medio =


Q diseno =


Q = A x V

V =

Q diseno =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =





K=

pra PVC n=

K=

Perdida de carga =



altura de succion =


Sobrepresion =

Perdidas Totales =



piezometrica en 1-R










Ø =

Ø =

Area =

V =

K=

Perdida de carga =



Perdidas Totales =

Carga estatica =

Profundidad de tuberia =

Criterios:







Agua

PVC

Acero (HG)

C (Hazen Williams)


Conversiones

PVC

PVC

HG





1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

175

PERFIL DE LINEA DE BOMBEOD-1.5-2.0

ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno

Sobrepresion nega-tiva

Nacimiento

59.00 gls/min

3.72


Bombeo

25 anos

10 anos

4,000.00 gal/dia

0.18 lts/seg

126.00 hab.

130.00 hab.


227.85 hab.

230 hab.

0.32 lts/seg

1.2

0.38 lts/seg



0.0004

0.0006

0.0285 m mayor diametro de la tuberia

1.12 plgs

1.5 plg Aproximando al valor mas proximo en el mercado

0.0381 m

9.81


355.17 m


2.50 m.

3.00 m.

10.3n^2/D^(16/3)

0.009

30,883.2056

1.6118 m.

0.2418 m.


2.50 m.

8.00 m.

19.33 m.


39.140 m 55.66 psi


7.41 m. punto mas alto

240.07 m.

18.65 m.

m3/s

m2

m/s2

KLQ2

B50


(15.45) m.

3.92 m.


336.52

6.84


0.0508 m.

0.0020

0.1891 m/seg.

6,658.5926

0.3293 m.

0.0494 m.

0.0018 m.

0.3805 m.

6.8400 m.

0.60 m.

2.60 m.





0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

799.31 m.


2.005 m.

m2.

kg/cm2

kg/cm2

kg/cm2


CALCULO DE LA LINEA


% INC. L Cota de Tuberia ø (plg) C (Hazen) Hf (mca) Linea Dianmica

INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 92.38 1.5 PVC PVC-160 140.00 0.38 0.127 0.130 0.34 0.523 28,100 20,670 19.33 129.620 54.11

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 111.58 1.5 PVC PVC-160 140.00 0.38 0.079 0.081 0.34 0.523 28,100 20,670 19.33 129.490 34.40

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 118.16 1.5 PVC PVC-160 140.00 0.38 0.053 0.054 0.34 0.523 28,100 20,670 19.33 129.409 27.42

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 118.07 1.5 PVC PVC-160 140.00 0.38 0.204 0.209 0.34 0.523 28,100 20,670 19.33 129.354 27.22

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 117.86 1.5 PVC PVC-160 140.00 0.38 0.125 0.128 0.34 0.523 28,100 20,670 19.33 129.146 26.31

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 117.71 1.5 PVC PVC-160 140.00 0.38 0.117 0.120 0.34 0.523 28,100 20,670 19.33 129.017 25.78

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 117.59 1.5 PVC PVC-160 140.00 0.38 0.116 0.119 0.34 0.523 28,100 20,670 19.33 128.897 25.26

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 117.46 1.5 PVC PVC-160 140.00 0.38 0.121 0.124 0.34 0.523 28,100 20,670 19.33 128.779 24.76

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 117.32 1.5 PVC PVC-160 140.00 0.38 0.071 0.073 0.34 0.523 28,100 20,670 19.33 128.655 24.24

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 117.23 1.5 PVC PVC-160 140.00 0.38 0.167 0.171 0.34 0.523 28,100 20,670 19.33 128.582 23.94

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 116.56 1.5 PVC PVC-160 140.00 0.38 0.137 0.140 0.34 0.523 28,100 20,670 19.33 128.411 23.70

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 116.90 1.5 PVC PVC-160 140.00 0.38 0.138 0.141 0.34 0.523 28,100 20,670 19.33 128.271 22.61

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 120.12 1.5 PVC PVC-160 140.00 0.38 0.119 0.122 0.34 0.523 28,100 20,670 19.33 128.130 18.65

N37 N38 26.79 122.26 122.26 0.0000 346.32 26.7900 124.26 1.5 PVC PVC-160 140.00 0.38 0.119 0.122 0.34 0.523 28,100 20,670 19.33 128.008 16.46

N37 N38 26.79 122.26 116.90 0.0000 346.32 26.7900 121.66 2 PVC PVC-160 140.00 0.38 0.029 0.026 0.19 0.523 28,100 20,670 122.260 0.00

N38 N39 54.57 116.9 116.74 (5.3600) 400.89 54.8326 116.30 2 PVC PVC-160 140.00 0.38 0.060 0.054 0.19 0.523 28,100 20,670 122.234 0.03

N39 N40 17.75 116.74 116.51 (0.1600) 418.64 17.7507 116.14 2 PVC PVC-160 140.00 0.38 0.019 0.017 0.19 0.523 28,100 20,670 122.180 0.08

N40 N41 48.51 116.51 116.40 (0.2300) 467.15 48.5105 115.91 2 PVC PVC-160 140.00 0.38 0.053 0.047 0.19 0.523 28,100 20,670 122.163 0.10

N41 N42 23.71 116.4 116.29 (0.1100) 490.86 23.7103 115.80 2 PVC PVC-160 140.00 0.38 0.026 0.023 0.19 0.523 28,100 20,670 122.115 0.14

N42 N43 18.37 116.29 116.13 (0.1100) 509.23 18.3703 115.69 2 PVC PVC-160 140.00 0.38 0.020 0.018 0.19 0.523 28,100 20,670 122.092 0.17

N43 N44 33.49 116.13 115.82 (0.1600) 542.72 33.4904 115.53 2 PVC PVC-160 140.00 0.38 0.037 0.033 0.19 0.523 28,100 20,670 122.074 0.19

N44 N45 62.20 115.82 115.62 (0.3100) 604.92 62.2008 115.22 2 PVC PVC-160 140.00 0.38 0.068 0.061 0.19 0.523 28,100 20,670 122.041 0.22

N45 N46 39.23 115.62 115.52 (0.2000) 644.15 39.2305 115.02 2 PVC PVC-160 140.00 0.38 0.043 0.038 0.19 0.523 28,100 20,670 121.981 0.28

N46 N47 19.25 115.52 115.42 (0.1000) 663.40 19.2503 114.92 2 PVC PVC-160 140.00 0.38 0.021 0.019 0.19 0.523 28,100 20,670 121.942 0.32

N47 108 19.17 115.42 99.30 (0.1000) 682.57 19.1703 114.82 2 PVC PVC-160 140.00 0.38 0.021 0.019 0.19 0.523 28,100 20,670 121.923 0.34

108 63.16 99.3 (16.1200) 745.73 65.1847 98.70 2 PVC PVC-160 140.00 0.38 0.072 0.064 0.19 0.523 28,100 20,670 121.905 0.36

745.73

SUB-TOTAL 1.575 1.612

SUB-TOTAL 0.441 0.393 0.000

TOTAL 799.31 810.46 2.016 2.005


PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.


o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)





Cota Piezometrica


Tuberia mca.

1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

175


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno

Sobrepresion nega-tiva

36.640 108.43 34.78 15.45 147.094

17.359 109.34 15.58 -2.84 146.579

10.724 109.63 9.00 -9.13 146.176

10.606 110.75 9.09 -7.92 145.887

10.687 111.43 9.30 -7.03 144.774

10.717 112.07 9.45 -6.24 144.090

10.719 112.70 9.57 -5.49 143.451

10.725 113.36 9.70 -4.70 142.819

10.792 113.75 9.84 -4.17 142.157

10.711 114.66 9.93 -3.17 141.771

11.241 115.41 10.60 -1.75 140.861

10.760 116.15 10.26 -1.35 140.113

7.418 116.80 7.04 -3.92 139.365

5.757 116.80 5.50 -5.46 138.717

0.000 0.00

5.334 5.36

5.440 5.52

5.653 5.75

5.715 5.86

5.802 5.97

5.944 6.13

6.221 6.44

6.361 6.64

6.422 6.74

6.503 6.84

22.605 22.96

Presión Dinámica


Presión Estática

Presión Negativa


BASES DE DISENO

Fuente


Sistema





bombeo


Q medio =


aproximando



aproximando

Q medio =


Q diseno =

Q = A x V

V =

Q diseno =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =






K=

pra PVC n=

K=

Perdida de carga =



altura de succion =


Sobrepresion =

Perdidas Totales =



piezometrica en 1-R










Ø =

Ø =

Area =

V =

K=

Perdida de carga =



Perdidas Totales =

Carga estatica =


Criterios:







Agua

PVC

Acero (HG)

C (Hazen Williams)


Conversiones

PVC

PVC

HG





1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

175


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno


Nacimiento

12.00 gls/min

0.76


Bombeo

25 anos

10 anos

4,000.00 gal/dia

0.18 lts/seg

126.00 hab.

130.00 hab.


227.85 hab.

230 hab.

0.32 lts/seg

1.2

0.38 lts/seg


0.0004

0.0006

0.0285 m

1.12 plgs diametro de la tuberia


0.0635 m

9.81



355.17 m


2.50 m.

3.00 m.

10.3n^2/D^(16/3)

0.009

2,025.4851

0.1057 m.

0.0159 m.


2.50 m.

8.00 m.

5.57 m.


37.410 m 53.20 psi



226.31 m.

10.38 m.

(29.21) m.

m3/s

m2

m/s2

KLQ2

B49


(3.88) m.


336.52 m..

6.84 m.

2.5 plgs. Salida del tanque

0.0635 m.

0.0032

0.1210 m/seg.

2,025.4851

0.1002 m.

0.0150 m.

0.0007 m.

0.1159 m.

6.8400 m.

0.60 m.

2.60 m.





0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

799.31 m.


0.225 m.

m2.

kg/cm2

kg/cm2

kg/cm2


CALCULO DE LA LINEA



INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 92.38 2.5 PVC PVC-160 140.00 0.38 0.011 0.009 0.12 0.523 28,100 20,670 5.57 127.890 40.35

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 111.58 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 5.57 127.881 21.00

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 118.16 2.5 PVC PVC-160 140.00 0.38 0.004 0.004 0.12 0.523 28,100 20,670 5.57 127.876 14.30

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 118.07 2.5 PVC PVC-160 140.00 0.38 0.017 0.014 0.12 0.523 28,100 20,670 5.57 127.873 14.31

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 117.86 2.5 PVC PVC-160 140.00 0.38 0.011 0.008 0.12 0.523 28,100 20,670 5.57 127.859 14.20

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 117.71 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.850 14.15

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 117.59 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.843 14.09

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 117.46 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.835 14.04

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 117.32 2.5 PVC PVC-160 140.00 0.38 0.006 0.005 0.12 0.523 28,100 20,670 5.57 127.827 13.99

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 117.23 2.5 PVC PVC-160 140.00 0.38 0.014 0.011 0.12 0.523 28,100 20,670 5.57 127.822 13.97

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 116.56 2.5 PVC PVC-160 140.00 0.38 0.012 0.009 0.12 0.523 28,100 20,670 5.57 127.811 14.37

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 116.90 2.5 PVC PVC-160 140.00 0.38 0.012 0.009 0.12 0.523 28,100 20,670 5.57 127.802 13.82

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 120.12 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.792 10.38

N37 N38 26.79 122.26 122.26 0.0000 346.32 26.7900 124.26 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.784 8.66

N37 N38 26.79 122.26 116.90 0.0000 346.32 26.7900 121.66 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 122.260 0.00

N38 N39 54.57 116.9 116.74 (5.3600) 400.89 54.8326 116.30 2.5 PVC PVC-160 140.00 0.38 0.020 0.016 0.12 0.523 28,100 20,670 122.252 0.01

N39 N40 17.75 116.74 116.51 (0.1600) 418.64 17.7507 116.14 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 122.236 0.02

N40 N41 48.51 116.51 116.40 (0.2300) 467.15 48.5105 115.91 2.5 PVC PVC-160 140.00 0.38 0.018 0.014 0.12 0.523 28,100 20,670 122.230 0.03

N41 N42 23.71 116.4 116.29 (0.1100) 490.86 23.7103 115.80 2.5 PVC PVC-160 140.00 0.38 0.009 0.007 0.12 0.523 28,100 20,670 122.216 0.04

N42 N43 18.37 116.29 116.13 (0.1100) 509.23 18.3703 115.69 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 122.209 0.05

N43 N44 33.49 116.13 115.82 (0.1600) 542.72 33.4904 115.53 2.5 PVC PVC-160 140.00 0.38 0.012 0.010 0.12 0.523 28,100 20,670 122.203 0.06

N44 N45 62.20 115.82 115.62 (0.3100) 604.92 62.2008 115.22 2.5 PVC PVC-160 140.00 0.38 0.023 0.019 0.12 0.523 28,100 20,670 122.193 0.07

N45 N46 39.23 115.62 115.52 (0.2000) 644.15 39.2305 115.02 2.5 PVC PVC-160 140.00 0.38 0.015 0.012 0.12 0.523 28,100 20,670 122.175 0.09

N46 N47 19.25 115.52 115.42 (0.1000) 663.40 19.2503 114.92 2.5 PVC PVC-160 140.00 0.38 0.007 0.006 0.12 0.523 28,100 20,670 122.163 0.10

N47 108 19.17 115.42 99.30 (0.1000) 682.57 19.1703 114.82 2.5 PVC PVC-160 140.00 0.38 0.007 0.006 0.12 0.523 28,100 20,670 122.158 0.10

108 63.16 99.3 (16.1200) 745.73 65.1847 98.70 2.5 PVC PVC-160 140.00 0.38 0.024 0.019 0.12 0.523 28,100 20,670 122.152 0.11

745.73

SUB-TOTAL 0.132 0.106

SUB-TOTAL 0.150 0.120 0.000

TOTAL 799.31 810.46 0.282 0.225


PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.


o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)





Cota Piezometrica


Tuberia mca.

1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

175


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno


34.910 122.19 34.78 29.21 133.329

15.705 122.46 15.58 10.28 133.181

9.121 122.54 9.00 3.78 133.065

9.197 122.86 9.09 4.19 132.982

9.399 123.06 9.30 4.60 132.661

9.541 123.24 9.45 4.93 132.464

9.653 123.42 9.57 5.23 132.280

9.775 123.61 9.70 5.55 132.098

9.910 123.72 9.84 5.80 131.907

9.989 123.99 9.93 6.16 131.796

10.650 124.20 10.60 7.04 131.534

10.301 124.42 10.26 6.92 131.318

7.073 124.60 7.04 3.88 131.103

5.525 124.60 5.50 2.34 130.916

0.000 0.00

5.352 5.36

5.496 5.52

5.720 5.75

5.816 5.86

5.919 5.97

6.073 6.13

6.373 6.44

6.555 6.64

6.643 6.74

6.738 6.84

22.852 22.96

Presión Dinámica


Presión Estática

Presión Negativa


BASES DE DISENO

Fuente


Sistema





bombeo


Q medio =


aproximando



aproximando

Q medio =


Q diseno =

Q = A x V

V =

Q diseno =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =






K=

pra PVC n=

K=

Perdida de carga =



altura de succion =


Sobrepresion =

Perdidas Totales =



piezometrica en 1-R










Ø =

Ø =

Area =

V =

K=

Perdida de carga =



Perdidas Totales =

Carga estatica =


Criterios:







Agua

PVC

Acero (HG)

C (Hazen Williams)


Conversiones

PVC

PVC

HG





1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

175


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno


Nacimiento

12.00 gls/min

0.76


Bombeo

25 anos

10 anos

4,000.00 gal/dia

0.18 lts/seg

126.00 hab.

130.00 hab.


227.85 hab.

230 hab.

0.32 lts/seg

1.2

0.38 lts/seg


0.0004

0.0006

0.0285 m

1.12 plgs diametro de la tuberia


0.0635 m

9.81



355.17 m


2.50 m.

3.00 m.

10.3n^2/D^(16/3)

0.009

2,025.4851

0.1057 m.

0.0159 m.


2.50 m.

8.00 m.

5.57 m.


37.410 m 53.20 psi



226.31 m.

10.38 m.

(29.21) m.

m3/s

m2

m/s2

KLQ2

B49


(3.88) m.


336.52

6.84


0.0508 m.

0.0020

0.1891 m/seg.

6,658.5926

0.3293 m.

0.0494 m.

0.0018 m.

0.3805 m.

6.8400 m.

0.60 m.

2.60 m.





0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

799.31 m.


0.499 m.

m2.

kg/cm2

kg/cm2

kg/cm2


CALCULO DE LA LINEA



INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 92.38 2.5 PVC PVC-160 140.00 0.38 0.011 0.009 0.12 0.523 28,100 20,670 5.57 127.890 40.35

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 111.58 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 5.57 127.881 21.00

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 118.16 2.5 PVC PVC-160 140.00 0.38 0.004 0.004 0.12 0.523 28,100 20,670 5.57 127.876 14.30

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 118.07 2.5 PVC PVC-160 140.00 0.38 0.017 0.014 0.12 0.523 28,100 20,670 5.57 127.873 14.31

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 117.86 2.5 PVC PVC-160 140.00 0.38 0.011 0.008 0.12 0.523 28,100 20,670 5.57 127.859 14.20

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 117.71 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.850 14.15

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 117.59 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.843 14.09

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 117.46 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.835 14.04

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 117.32 2.5 PVC PVC-160 140.00 0.38 0.006 0.005 0.12 0.523 28,100 20,670 5.57 127.827 13.99

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 117.23 2.5 PVC PVC-160 140.00 0.38 0.014 0.011 0.12 0.523 28,100 20,670 5.57 127.822 13.97

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 116.56 2.5 PVC PVC-160 140.00 0.38 0.012 0.009 0.12 0.523 28,100 20,670 5.57 127.811 14.37

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 116.90 2.5 PVC PVC-160 140.00 0.38 0.012 0.009 0.12 0.523 28,100 20,670 5.57 127.802 13.82

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 120.12 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.792 10.38

N37 N38 26.79 122.26 122.26 0.0000 346.32 26.7900 124.26 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 127.784 8.66

N37 N38 26.79 122.26 116.90 0.0000 346.32 26.7900 121.66 2 PVC PVC-160 140.00 0.38 0.029 0.026 0.19 0.523 28,100 20,670 122.260 0.00

N38 N39 54.57 116.9 116.74 (5.3600) 400.89 54.8326 116.30 2 PVC PVC-160 140.00 0.38 0.060 0.054 0.19 0.523 28,100 20,670 122.234 0.03

N39 N40 17.75 116.74 116.51 (0.1600) 418.64 17.7507 116.14 2 PVC PVC-160 140.00 0.38 0.019 0.017 0.19 0.523 28,100 20,670 122.180 0.08

N40 N41 48.51 116.51 116.40 (0.2300) 467.15 48.5105 115.91 2 PVC PVC-160 140.00 0.38 0.053 0.047 0.19 0.523 28,100 20,670 122.163 0.10

N41 N42 23.71 116.4 116.29 (0.1100) 490.86 23.7103 115.80 2 PVC PVC-160 140.00 0.38 0.026 0.023 0.19 0.523 28,100 20,670 122.115 0.14

N42 N43 18.37 116.29 116.13 (0.1100) 509.23 18.3703 115.69 2 PVC PVC-160 140.00 0.38 0.020 0.018 0.19 0.523 28,100 20,670 122.092 0.17

N43 N44 33.49 116.13 115.82 (0.1600) 542.72 33.4904 115.53 2 PVC PVC-160 140.00 0.38 0.037 0.033 0.19 0.523 28,100 20,670 122.074 0.19

N44 N45 62.20 115.82 115.62 (0.3100) 604.92 62.2008 115.22 2 PVC PVC-160 140.00 0.38 0.068 0.061 0.19 0.523 28,100 20,670 122.041 0.22

N45 N46 39.23 115.62 115.52 (0.2000) 644.15 39.2305 115.02 2 PVC PVC-160 140.00 0.38 0.043 0.038 0.19 0.523 28,100 20,670 121.981 0.28

N46 N47 19.25 115.52 115.42 (0.1000) 663.40 19.2503 114.92 2 PVC PVC-160 140.00 0.38 0.021 0.019 0.19 0.523 28,100 20,670 121.942 0.32

N47 108 19.17 115.42 99.30 (0.1000) 682.57 19.1703 114.82 2 PVC PVC-160 140.00 0.38 0.021 0.019 0.19 0.523 28,100 20,670 121.923 0.34

108 63.16 99.3 (16.1200) 745.73 65.1847 98.70 2 PVC PVC-160 140.00 0.38 0.072 0.064 0.19 0.523 28,100 20,670 121.905 0.36

745.73

SUB-TOTAL 0.132 0.106

SUB-TOTAL 0.441 0.393 0.000

TOTAL 799.31 810.46 0.573 0.499


PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.


o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)





Cota Piezometrica


Tuberia mca.

1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

175


ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Tuberia

Linea Piezomet-rica

Sobrepresion

Terreno


34.910 122.19 34.78 29.21 133.329

15.705 122.46 15.58 10.28 133.181

9.121 122.54 9.00 3.78 133.065

9.197 122.86 9.09 4.19 132.982

9.399 123.06 9.30 4.60 132.661

9.541 123.24 9.45 4.93 132.464

9.653 123.42 9.57 5.23 132.280

9.775 123.61 9.70 5.55 132.098

9.910 123.72 9.84 5.80 131.907

9.989 123.99 9.93 6.16 131.796

10.650 124.20 10.60 7.04 131.534

10.301 124.42 10.26 6.92 131.318

7.073 124.60 7.04 3.88 131.103

5.525 124.60 5.50 2.34 130.916

0.000 0.00

5.334 5.36

5.440 5.52

5.653 5.75

5.715 5.86

5.802 5.97

5.944 6.13

6.221 6.44

6.361 6.64

6.422 6.74

6.503 6.84

22.605 22.96

Presión Dinámica


Presión Estática

Presión Negativa


BASES DE DISENO

Fuente


Sistema





bombeo


Q medio =




Q medio =


Q diseno =

Q = A x V

V =

Q diseno =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =






K=

pra PVC n=

K=

Perdida de carga =



altura de succion =


Sobrepresion =

Perdidas Totales =






piezometrica en 1-R






Criterios:







Agua

PVC

Acero (HG)

C (Hazen Williams)


Conversiones

PVC

PVC

HG




1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

PERFIL DE LINEA DE BOMBEOD-2.5

ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Linea Piezometrica

Sobrepresion

Sobrepresion neg-ativa

Tuberia

Terreno

Nacimiento

12.00 gls/min

0.76 lts/s


Bombeo

25.00 anos

10.00 anos

4,000.00 gal/dia

0.18 lts/seg

126.00 hab.

130.00 hab.


227.85 hab.

230 hab.

0.32 lts/seg

1.2

0.38 lts/seg


0.0004

0.0006

0.0285 m diametro de la tuberia

1.12 plgs


0.0635 m

9.81



691.69 m

22.44 m. Cota mayor - cota menor

2.50 m.

6.00 m.

10.3n^2/D^(16/3)

0.009

2,025.4851

0.2059 m.

0.0309 m.

0.000747 m. Aproximando tenemos 0.0007 m.

2.50 m.

8.00 m.

5.57 m.

0.2375 m. Aproximando a dos cifras decimales 0.24 m.

33.680 m. 47.89 psi

0.60 m.

2.60 m.

m3/s

m2

m/s2

KLQ2

B49




m.

m.

m.

m.





0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

745.73 m.


0.225 m.

kg/cm2

kg/cm2

kg/cm2


CALCULO DE LA LINEA


% INC. L Cota de Tuberia ø (plg) C (Hazen) Hf (mca)

INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 92.3800 2.5 PVC PVC-160 140.00 0.38 0.011 0.009 0.12 0.523 28,100 20,670 5.57 124.160 36.51 31.180

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 111.5800 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 5.57 124.151 17.15 11.975

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 118.1600 2.5 PVC PVC-160 140.00 0.38 0.004 0.004 0.12 0.523 28,100 20,670 5.57 124.146 10.45 5.391

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 118.0700 2.5 PVC PVC-160 140.00 0.38 0.017 0.014 0.12 0.523 28,100 20,670 5.57 124.143 10.45 5.467

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 117.8600 2.5 PVC PVC-160 140.00 0.38 0.011 0.008 0.12 0.523 28,100 20,670 5.57 124.129 10.31 5.669

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 117.7100 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 124.120 10.25 5.811

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 117.5900 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 124.113 10.17 5.923

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 117.4600 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 124.105 10.11 6.045

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 117.3200 2.5 PVC PVC-160 140.00 0.38 0.006 0.005 0.12 0.523 28,100 20,670 5.57 124.097 10.05 6.180

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 117.2300 2.5 PVC PVC-160 140.00 0.38 0.014 0.011 0.12 0.523 28,100 20,670 5.57 124.092 10.02 6.259

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 116.5600 2.5 PVC PVC-160 140.00 0.38 0.012 0.009 0.12 0.523 28,100 20,670 5.57 124.081 10.40 6.920

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 116.9000 2.5 PVC PVC-160 140.00 0.38 0.012 0.009 0.12 0.523 28,100 20,670 5.57 124.072 9.83 6.571

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 120.1200 2.5 PVC PVC-160 140.00 0.38 0.010 0.008 0.12 0.523 28,100 20,670 5.57 124.062 6.38 3.343

N37 N38 54.57 122.26 116.90 (5.3600) 400.89 54.8326 121.6600 2.5 PVC PVC-160 140.00 0.38 0.020 0.016 0.12 0.523 28,100 20,670 5.57 124.054 4.64 1.786

N38 N39 17.75 116.9 116.74 (0.1600) 418.64 17.7507 116.3000 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 5.57 124.038 9.60 7.141

N39 N40 48.51 116.74 116.51 (0.2300) 467.15 48.5105 116.1400 2.5 PVC PVC-160 140.00 0.38 0.018 0.014 0.12 0.523 28,100 20,670 5.57 124.033 9.62 7.287

N40 N41 23.71 116.51 116.40 (0.1100) 490.86 23.7103 115.9100 2.5 PVC PVC-160 140.00 0.38 0.009 0.007 0.12 0.523 28,100 20,670 5.57 124.018 9.49 7.510

N41 N42 18.37 116.4 116.29 (0.1100) 509.23 18.3703 115.8000 2.5 PVC PVC-160 140.00 0.38 0.007 0.005 0.12 0.523 28,100 20,670 5.57 124.011 9.42 7.614

N42 N43 33.49 116.29 116.13 (0.1600) 542.72 33.4904 115.6900 2.5 PVC PVC-160 140.00 0.38 0.012 0.010 0.12 0.523 28,100 20,670 5.57 124.006 9.40 7.714

N43 N44 62.20 116.13 115.82 (0.3100) 604.92 62.2008 115.5300 2.5 PVC PVC-160 140.00 0.38 0.023 0.019 0.12 0.523 28,100 20,670 5.57 123.996 9.31 7.856

N44 N45 39.23 115.82 115.62 (0.2000) 644.15 39.2305 115.2200 2.5 PVC PVC-160 140.00 0.38 0.015 0.012 0.12 0.523 28,100 20,670 5.57 123.977 9.15 8.154

N45 N46 19.25 115.62 115.52 (0.1000) 663.40 19.2503 115.0200 2.5 PVC PVC-160 140.00 0.38 0.007 0.006 0.12 0.523 28,100 20,670 5.57 123.966 9.06 8.348

N46 N47 19.17 115.52 115.42 (0.1000) 682.57 19.1703 117.5200 2.5 PVC PVC-160 140.00 0.38 0.007 0.006 0.12 0.523 28,100 20,670 5.57 123.960 9.01 8.443

N47 108 63.16 115.42 99.30 (16.1200) 745.73 65.1847 114.8200 2.5 PVC PVC-160 140.00 0.38 0.024 0.019 0.12 0.523 28,100 20,670 5.57 123.954 8.97 8.523

108 0.0000 745.73 0.0000 2.5 PVC PVC-250 140.00 0.38 0.000 0.000 0.12 0.523 28,100 20,670 5.57 123.935 123.92 123.943

SUB-TOTAL 0.132 0.106

SUB-TOTAL 0.150 0.120 123.935

TOTAL 745.73 756.88 0.282 0.225


PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.


o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)





Cota Piezometrica


Tuberia mca.

Presión Dinámica

1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

PERFIL DE LINEA DE BOMBEOD-2.5

ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Linea Piezometrica

Sobrepresion

Sobrepresion neg-ativa

Tuberia

Terreno

118.35 30.94 25.37 129.489

118.63 11.74 6.45 129.330

118.72 5.16 -0.04 129.206

119.07 5.25 0.40 129.117

119.28 5.46 0.82 128.773

119.48 5.61 1.17 128.562

119.67 5.73 1.48 128.365

119.87 5.86 1.81 128.169

119.99 6.00 2.07 127.965

120.28 6.09 2.45 127.846

120.51 6.76 3.35 127.565

120.74 6.42 3.24 127.334

120.94 3.20 0.22 127.103

121.34 1.66 -0.92 126.903

121.48 7.02 4.58 126.495

121.84 7.18 5.10 126.363

122.02 7.41 5.51 126.001

122.15 7.52 5.75 125.823

122.40 7.63 6.11 125.686

122.87 7.79 6.74 125.436

123.16 8.10 7.34 124.972

123.31 8.30 7.69 124.679

123.45 8.40 7.93 124.535

123.92 8.50 8.50 124.392

123.92 123.92 123.92 123.920


Presión Estática

Presión Negativa


BASES DE DISENO

Fuente


Sistema





bombeo


Q medio =




Q medio =


Q bombeo =

Q = A x V

V =

Q diseno =

A =

Ø =

Ø =

Ø =

Ø =

Gravedad

V =






K=

pra PVC n=

K=

Perdida de carga =



Succion =

Sobrepresion =

Perdidas Totales =




piezometrica en 1-R








Criterios:







Agua

PVC

Acero (HG)

C (Hazen Williams)


Conversiones

PVC

PVC

HG




1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

PERFIL DE LINEA DE BOMBEO

ESTACIONAMIENTO

CO

TA

DE

NIV

EL

Nacimiento

12.00 gls/min

0.76 lts/s

Bombeo

25.00 anos

10.00 anos

3,000.00 gal/dia

0.13 lts/seg

94.50 hab.

95.00 hab.


166.51 hab.

167 hab.

0.23 lts/seg

1.2

0.28 lts/seg


0.0003

0.0005

0.0243 m diametro de la tuberia

0.96 plgs

1 plg Aproximando al valor mas proximo en el mercado

0.0254 m

9.81

0.55 m/s Se corrige la velocidad de acuerdo al nuevo diametro 0.6<V<1.5


691.69 m

22.44 m. Cota mayor - cota menor

2.50 m.

3.00 m.

10.3n^2/D^(16/3)

0.009

268,457.6319

14.3853 m.

2.1578 m.

0.0154 m. Aproximando a dos cifras decimales tenem 0.02 m

1.0000 m.

37.25 m.

16.5584 m. Aproximando a dos cifras decimales tenem 16.56 m

40.000 m 56.88 psi

0.60 m.

2.60 m.



m3/s

m2

m/s2

KLQ2

B47




113.76 psi PVC-160 si se calcula sobrepresion


0.523 cm.

0.5486 cm.

20,670

28,100

2,100,000

HG 100.00

PVC 150.00

PVC 140.00

mca.

14.22 1.00 10.00

160.00 11.25 112.52

250.00 17.58 175.81

745.73 m.


15.741 m.

kg/cm2

kg/cm2

kg/cm2


CALCULO DE LA LINEA


% INC. L ø (plg) C (Hazen) Hf (mca)

INICIO FIN

1R 92.98

1R 4R 21.28 92.98 112.18 19.2000 21.28 28.6614 1 PVC PVC-160 140.00 0.28 0.502 0.596 0.55 0.523 28,100 20,670 37.25 131.980 59.69 39.000 78.17 22.44

4R N26 16.68 112.18 118.76 6.5800 37.96 17.9309 1 PVC PVC-160 140.00 0.28 0.314 0.373 0.55 0.523 28,100 20,670 37.25 131.384 39.42 19.427 80.07 3.24

N26 N27 11.95 118.76 118.67 (0.0900) 49.91 11.9503 1 PVC PVC-160 140.00 0.28 0.209 0.249 0.55 0.523 28,100 20,670 37.25 131.011 32.01 12.599 80.58 -3.34

N27 N28 46.00 118.67 118.46 (0.2100) 95.91 46.0005 1 PVC PVC-160 140.00 0.28 0.806 0.957 0.55 0.523 28,100 20,670 37.25 130.762 31.50 11.732 82.75 -3.25

N28 N29 28.29 118.46 118.31 (0.1500) 124.20 28.2904 1 PVC PVC-160 140.00 0.28 0.496 0.588 0.55 0.523 28,100 20,670 37.25 129.806 29.42 11.354 84.23 -3.04

N29 N30 26.39 118.31 118.19 (0.1200) 150.59 26.3903 1 PVC PVC-160 140.00 0.28 0.462 0.549 0.55 0.523 28,100 20,670 37.25 129.217 28.15 10.955 85.57 -2.89

N30 N31 26.15 118.19 118.06 (0.1300) 176.74 26.1503 1 PVC PVC-160 140.00 0.28 0.458 0.544 0.55 0.523 28,100 20,670 37.25 128.669 26.96 10.531 86.87 -2.77

N31 N32 27.35 118.06 117.92 (0.1400) 204.09 27.3504 1 PVC PVC-160 140.00 0.28 0.479 0.569 0.55 0.523 28,100 20,670 37.25 128.125 25.78 10.092 88.23 -2.64

N32 N33 15.98 117.92 117.83 (0.0900) 220.07 15.9803 1 PVC PVC-160 140.00 0.28 0.280 0.332 0.55 0.523 28,100 20,670 37.25 127.556 24.55 9.900 89.07 -2.50

N33 N34 37.61 117.83 117.16 (0.6700) 257.68 37.6160 1 PVC PVC-160 140.00 0.28 0.659 0.782 0.55 0.523 28,100 20,670 37.25 127.224 23.85 9.207 90.37 -2.41

N34 N35 30.95 117.16 117.50 0.3400 288.63 30.9519 1 PVC PVC-160 140.00 0.28 0.542 0.644 0.55 0.523 28,100 20,670 37.25 126.441 22.64 9.234 92.93 -1.74

N35 N36 30.90 117.5 120.72 3.2200 319.53 31.0673 1 PVC PVC-160 140.00 0.28 0.544 0.646 0.55 0.523 28,100 20,670 37.25 125.798 20.75 8.248 97.35 -2.08

N36 N37 26.79 120.72 122.26 1.5400 346.32 26.8342 1 PVC PVC-160 140.00 0.28 0.470 0.558 0.55 0.523 28,100 20,670 37.25 125.151 15.99 4.469 97.01 -5.30

N37 N38 54.57 122.26 116.90 (5.3600) 400.89 54.8326 1 PVC PVC-160 140.00 0.28 0.961 1.140 0.55 0.523 28,100 20,670 37.25 124.593 13.11 1.789 92.84 -6.84

N38 N39 17.75 116.9 116.74 (0.1600) 418.64 17.7507 1 PVC PVC-160 140.00 0.28 0.311 0.369 0.55 0.523 28,100 20,670 37.25 123.453 15.74 6.780 98.92 -1.48

N39 N40 48.51 116.74 116.51 (0.2300) 467.15 48.5105 1 PVC PVC-160 140.00 0.28 0.850 1.009 0.55 0.523 28,100 20,670 37.25 123.084 15.02 5.931 101.28 -1.32

N40 N41 23.71 116.51 116.40 (0.1100) 490.86 23.7103 1 PVC PVC-160 140.00 0.28 0.415 0.493 0.55 0.523 28,100 20,670 37.25 122.075 12.82 5.668 102.58 -1.09

N41 N42 18.37 116.4 116.29 (0.1100) 509.23 18.3703 1 PVC PVC-160 140.00 0.28 0.322 0.382 0.55 0.523 28,100 20,670 37.25 121.582 11.75 5.396 103.50 -0.98

N42 N43 33.49 116.29 116.13 (0.1600) 542.72 33.4904 1 PVC PVC-160 140.00 0.28 0.587 0.697 0.55 0.523 28,100 20,670 37.25 121.200 10.94 4.809 105.12 -0.87

N43 N44 62.20 116.13 115.82 (0.3100) 604.92 62.2008 1 PVC PVC-160 140.00 0.28 1.090 1.294 0.55 0.523 28,100 20,670 37.25 120.503 9.43 3.676 108.08 -0.71

N44 N45 39.23 115.82 115.62 (0.2000) 644.15 39.2305 1 PVC PVC-160 140.00 0.28 0.687 0.816 0.55 0.523 28,100 20,670 37.25 119.210 6.63 3.170 110.15 -0.40

N45 N46 19.25 115.62 115.52 (0.1000) 663.40 19.2503 1 PVC PVC-160 140.00 0.28 0.337 0.400 0.55 0.523 28,100 20,670 37.25 118.394 4.87 2.969 111.21 -0.20

N46 N47 19.17 115.52 115.42 (0.1000) 682.57 19.1703 1 PVC PVC-160 140.00 0.28 0.336 0.399 0.55 0.523 28,100 20,670 37.25 117.993 4.01 2.671 112.17 -0.10

N47 108 63.16 115.42 99.30 (16.1200) 745.73 65.1847 1 PVC PVC-160 140.00 0.28 1.142 1.356 0.55 0.523 28,100 20,670 37.25 117.595 3.15 1.415 99.30 0.00

0.0000 745.73 0.0000 1 PVC PVC-250 140.00 0.28 0.000 0.000 0.55 0.523 28,100 20,670 37.25 116.239 115.42 116.835 115.42 115.42

SUB-TOTAL 6.224 7.387

SUB-TOTAL 7.039 8.354 116.239

TOTAL 745.73 756.88 13.263 15.741


PUNTO OBSERVADO

Distancia acumulada

mts.

Longitud de Diseño

mts.


o PVC)

Presion de Tubería

Q Diseño

( l/s)

Hf (mca) Manning

Velocidad (m/s)





Cota Piezometrica


Tuberia mca.

Presión Dinámica


Presión Estática

1R

4R

N26

N27

N28

N29

N30

N31

N32

N33

N34

N35

N36

N37

N38

N39

N40

N41

N42

N43

N44

N45

N46

N47

108

75

85

95

105

115

125

135

145

155

165

PERFIL DE LINEA DE BOMBEO

ESTACIONAMIENTO

CO

TA

DE

NIV

EL

-14.81 152.668

-32.11 151.605

-38.09 150.772

-35.71 150.175

-34.08 147.877

-32.62 146.464

-31.19 145.146

-29.69 143.840

-28.76 142.474

-26.79 141.676

-24.57 139.797

-23.37 138.251

-25.25 136.708

-24.06 135.370

-17.82 132.644

-15.23 131.758

-13.82 129.335

-12.79 128.150

-11.01 127.233

-7.74 125.560

-5.47 122.453

-4.31 120.494

-3.25 119.532

0.00 118.575

115.42 115.420

Presión Negativa


diseño completo de bombeo

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