A horizontal pipe carries oil with a specific gravity of 0.83 . If two pressure gages along the pipe read 74.6 psig and 62.2 psig, respectively, calculate the energy loss between the two gages.

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Answer 1

Textbook Question

Chapter 7, Problem 7.1PP

A horizontal pipe carries oil with a specific gravity of 0.83 . If two pressure gages along the pipe read 74.6 psig and 62.2 psig, respectively, calculate the energy loss between the two gages.

Expert Solution & Answer

To determine

Energy loss between the two gages

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

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05:05

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Problem 1: A horizontal pipe carries oil with a specific gravity of 0.83. If two pressure gages along the pipe read 74.6 and 62.2 psig, respectively, calculate the energy loss between the two gages. Problem 2: Findhe figure below. The tank

Answer 2

Textbook Question

Chapter 7, Problem 7.1PP

A horizontal pipe carries oil with a specific gravity of 0.83 . If two pressure gages along the pipe read 74.6 psig and 62.2 psig, respectively, calculate the energy loss between the two gages.

Expert Solution & Answer

To determine

Energy loss between the two gages

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

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05:05

Answer 3

Textbook Question

Chapter 7, Problem 7.1PP

A horizontal pipe carries oil with a specific gravity of 0.83 . If two pressure gages along the pipe read 74.6 psig and 62.2 psig, respectively, calculate the energy loss between the two gages.

Expert Solution & Answer

To determine

Energy loss between the two gages

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

05:05

Answer 4

Textbook Question

Chapter 7, Problem 7.1PP

A horizontal pipe carries oil with a specific gravity of 0.83 . If two pressure gages along the pipe read 74.6 psig and 62.2 psig, respectively, calculate the energy loss between the two gages.

Expert Solution & Answer

To determine

Energy loss between the two gages

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

05:05

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

Energy loss between the two gages

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

Answer 8

Expert Solution & Answer

To determine

Energy loss between the two gages

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

Energy loss between the two gages

Answer 12

Answer to Problem 7.1PP

Energy loss between the two gages is, hL=34.5ft

Answer 13

Explanation of Solution

Given information:

S.G. of oil=0.83

Pressure at point 1, P₁= 74.6 psig

Pressure at point 1, P₂= 62.2 psig

In this problem we apply the Bernoulli's Principle or law of conservation of energy for real fluids

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

Where,

P= Pressure,

V=Velocity,

Z= Datum head,

h_L=Head loss or energy loss

Calculation:

Here we can edit the equation as per the conditions given in problem

P1ρg+V122g+z1=P2ρg+V222g+z2+hL

As the pipe is horizontal, so the two points in the pipe are on the same level that is, z1=z2

The cross sectional area of the pipe is uniform, so the velocity at both points is equal that is, v1=v2

After putting these values, the above equation become

P1ρg=P2ρg+hL

hL=P1ρg−P2ρg= P1−P2ρg

hL= 74.6−62.20.03= 413.33in

If we want to convert inch to ft then h_Lwill be multiplied 0.083

hL=413.33inX 0.083=34.5ft

hL=34.5ft

Answer 14

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A horizontal pipe carries oil with a specific gravity of 0.83 . If two pressure gages along the pipe read 74.6 psig and 62.2 psig, respectively, calculate the energy loss between the two gages.

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