cálculos de la tubería pequeña acero galvanizado

8/17/2019 Cálculos de La Tubería Pequeña Acero Galvanizado

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CÁLCULOS DE LA TUBERÍA PEQUEÑA ACERO GALVANIZADO

ÁNGULO= 6.12°

L= 1.665mD= 0.014mZ1= 0.36m

Z= 0.53!m"1= 0.#15m"= 0.!35m

Vol1=3.092x10-4m3

Vol2=3.092x10-4m3

Vol3=3.046x10-4m3

T1= 5.0 $ T=5.0 $ T3= 5.0! $

D%&m'()* D'+$%,-, T'm')-(/)- V%$*$%,-,

D= 1.4 m

= 1000

kg

m3 0 2 C

µ=1 x 10−3 N

m2 ∙ s

4.1cm( 1m1000cm )=0.014

VOLUEN.

ρ= m(kg)

Vol ( m3 )∴Vol=

m(kg)

ρ(kg

m3)=m3

VOLUEN 1.

Vol=0.3092(kg)

1000 ( kgm

3 )

=3.092×10−4 m3

VOLUEN .


2/11

Vol=0.3092(kg)

1000 (kg

m3)=3.092×10−4 m3

VOLUEN 3.

Vol=0.3046(kg )

1000(kg

m3)=3.046×10−4 m3

GASTO.

Q=V

t

GASTO 1.

Q=3.092×10

−4m

3

5.20 s =5.9461×10−5

m3

s

GASTO .

Q=3.092×10

−4m

3

5.20 s =5.9461×10−5

m3

s

GASTO 3.

Q=3.046×10

−4m

3

5.07 s =6.0078×10−5

m3

s

GASTO PROEDIO.

Q=Q

1+Q

2+Q

3

3=

5.9461×10−5 m

3

s +5.9461×10−5

m3

s +6.0078×10−5

m3

s

3=5.9666 x 10−5

m3

s

VELOCIDAD PROEDIO.

V =Q

A


3/11

A=π

4 x D

2

A=π

4×0.014

2=1.5393×10−4 m2

V =

5.9666×10−5m

3

s

1.5393×10−4m

2=0.3876

m

s

PRESIN.

PRESIN 1.

P1=

(h

1− z

1

)δ

P1=(0.915m−0.36m ) ×9810

N

m3=5444.55

N

m2

PRESIN .

P2=(h2− z2) δ

P2=(0.735m−0.537m ) ×9810 N

m3=1942.38

N

m2

NERO DE RENOLDS.

Nre=

v ( ms ) x D(m) x ρ(kg

m3)

µ (kg.m

s2 )(

1

m2)( s)

=adimensional

Nre=

0.3876(ms ) x 0.014(m) x 1000(

kg

m3)

1×10−3(

kg.m

s2 )(

1

m2)( s)

=5426.4


4/11

78.

h =h1−h2

h =0.915m−0.735m=0.18m


ÁNGULO= 0°

L= 1.665mD= 0.014mZ1= 0.53!mZ= 0.53!m"1=0.#4m"= 0.6m

Vol1=3.61x10-4m3

Vol2=3.751x10-4m3

Vol3=3.04x10-4m3

T1= 5.33 $ T=5.11 $ T3= 5.39 $

D%&m'()* D'+$%,-, T'm')-(/)- V%$*$%,-,

D= 1.4 m

= 1000

kg

m3 0 2 C

µ=1 x 10−3 N

m2 ∙ s


5/11

4.1cm( 1m1000cm )=0.014

VOLUEN.

ρ= m(kg)

Vol ( m3 )∴Vol=

m(kg)

ρ(kg

m3)=m3

VOLUEN 1.

Vol=0.361(kg)

1000(kg

m3)=3.61×10−4 m3

VOLUEN .

Vol=0.3751(kg)

1000 (kg

m3)=3.751×10−4 m3

VOLUEN 3.

Vol=0.304(kg)1000(

kg

m3)=3.04×10−4m3

GASTO.

Q=V

t

GASTO 1.

Q=3.61×10

−4m

3

5.33 s =6.7729×10−5

m3

s

GASTO .


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Q=3.751×10

−4m

3

5.11 s =7.3405×10−5

m3

s

GASTO 3.

Q=3.04×10−4 m3

5.38 s =5.6505×10−5 m

3

s

GASTO PROEDIO.

Q=Q

1+Q

2+Q

3

3=

6.7729×10−5 m

3

s +7.3405×10−5

m3

s +5.6505×10−5

m3

s

3=6.5879 x10−5

m3

s

VELOCIDAD PROEDIO.

V =Q

A

A=π

4 x D

2

A=π

4×0.014

2=1.5393×10−4 m2

V =6.5879 x10

−5 m3

s

1.5393×10−4

m2=0.4279

m

s

PRESIN.

PRESIN 1.

P1=(h1− z1) δ

P1=(0.94m−0.537m )×9810

N

m3=3953.43

N

m2

PRESIN .


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P2=(h2− z2) δ

P2=(0.62m−0.537m ) ×9810

N

m3=814.23

N

m2

NERO DE RENOLDS.

Nre=

v ( ms ) x D (m) x ρ (kg

m3)

µ (kg.m

s2 )(

1

m2)( s)

=adimensional

Nre=

0.4279( ms ) x 0.014(m) x 1000(kg

m3)

1×10−3(

kg.m

s2 )(

1

m2)( s) =

5990.6

78.

h =h1−h2

h =0.94m−0.62m=0.32m


ÁNGULO= 5.82°


8/11

L= 1.665mD= 0.014mZ1= 0.54mZ= 0.355m"1= 0.#4m

"= 0.!45mVol1=2.98x10-4m3

Vol2=3.10x10-4m3

Vol3=2.98x10-4m3

T1= 5.34 $ T=5.35 $ T3= 5.34 $

D%&m'()* D'+$%,-, T'm')-(/)- V%$*$%,-,

D= 1.4 m

= 1000

kg

m3 0 2 C

µ=1 x 10−3 N

m2 ∙ s

4.1cm( 1m1000cm )=0.014

VOLUEN.

ρ= m(kg)

Vol ( m3 )∴Vol=

m(kg)

ρ(kg

m3)=m3

VOLUEN 1.

Vol=0.298(kg)

1000(kg

m3)=2.98×10

−4

m3

VOLUEN .


9/11

Vol=0.310(kg)

1000(kg

m3)=3.10×10−4 m3

VOLUEN 3.

Vol=0.298(kg)

1000(kg

m3)=2.98×10−4 m3

GASTO.

Q=V

t

GASTO 1.

Q=2.98×10

−4m

3

5.34 s =5.5805×10−5

m3

s

GASTO .

Q=3.10×10

−4m

3

5.35 s =5.7943×10−5

m3

s

GASTO 3.

Q=2.98×10

−4m

3

5.34 s =5.5805×10−5

m3

s

GASTO PROEDIO.

Q=Q

1+Q

2+Q

3

3=

5.5805×10−5 m

3

s +5.7943×10−5

m3

s +5.5805×10−5

m3

s

3=5.6517 x10−5

m3

s

VELOCIDAD PROEDIO.

V =Q

A


10/11

A=π

4 x D

2

A=π

4×0.014

2=1.5393×10−4 m2

V =

5.6517 x10−5 m

3

s

1.5393×10−4m

2=0.3671

m

s

PRESIN.

PRESIN 1.

P1=

(h

1− z

1

)δ

P1=(0.924m−0.524m )×9810

N

m3=3924

N

m2

PRESIN .

P2=(h2− z2) δ

P2=(0.745m−0.355m )×9810 N

m3=3825.9

N

m2

NERO DE RENOLDS.

Nre=

v ( ms ) x D(m) x ρ(kg

m3)

µ (kg.m

s2 )(

1

m2)( s)

=adimensional

Nre=

0.3671(ms ) x 0.014(m) x 1000(

kg

m3)

1×10−3(

kg.m

s2 )(

1

m2)( s)

=5139.4


11/11

78.

h =h1−h2

h =0.924m−0.745m=0.179m

cálculos de la tubería pequeña acero galvanizado

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