Determine the energy loss due to a sudden enlargement from a 50 mm O D x 2.4 mm wall plastic pipe to a 90 mm O D x 2.8 mm wall plastic pipe when the velocity of flow is 3 m/s in the smaller pipe.

Question

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Answer 1

Textbook Question

Chapter 10, Problem 10.1PP

Determine the energy loss due to a sudden enlargement from a 50 mm O D x 2.4 mm wall plastic pipe to a 90 mm O D x 2.8 mm wall plastic pipe when the velocity of flow is 3 m/s in the smaller pipe.

Expert Solution & Answer

To determine

The energy loss due to sudden enlargement.

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

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Answer 2

Textbook Question

Chapter 10, Problem 10.1PP

Determine the energy loss due to a sudden enlargement from a 50 mm O D x 2.4 mm wall plastic pipe to a 90 mm O D x 2.8 mm wall plastic pipe when the velocity of flow is 3 m/s in the smaller pipe.

Expert Solution & Answer

To determine

The energy loss due to sudden enlargement.

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

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Answer 3

Textbook Question

Chapter 10, Problem 10.1PP

Determine the energy loss due to a sudden enlargement from a 50 mm O D x 2.4 mm wall plastic pipe to a 90 mm O D x 2.8 mm wall plastic pipe when the velocity of flow is 3 m/s in the smaller pipe.

Expert Solution & Answer

To determine

The energy loss due to sudden enlargement.

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

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02:39

Answer 4

Textbook Question

Chapter 10, Problem 10.1PP

Determine the energy loss due to a sudden enlargement from a 50 mm O D x 2.4 mm wall plastic pipe to a 90 mm O D x 2.8 mm wall plastic pipe when the velocity of flow is 3 m/s in the smaller pipe.

Expert Solution & Answer

To determine

The energy loss due to sudden enlargement.

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

The energy loss due to sudden enlargement.

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Answer 8

Expert Solution & Answer

To determine

The energy loss due to sudden enlargement.

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

The energy loss due to sudden enlargement.

Answer 12

Answer to Problem 10.1PP

The energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Answer 13

Explanation of Solution

Given information:

For pipe 1:

Outer Diameter D = 50 mm

Pipe wall thickness t₁= 2.4 mm

Thus, Inner diameter of the pipe 1 = D − 2t = 45.2 mm

The velocity of flow v₁= 3 m/s

For pipe 2:

Outer Diameter D = 90 mm

Pipe wall thickness t₂= 2.8 mm

Thus, Inner diameter of the pipe 2 = D − 2t = 84.4 mm

Calculation:

The energy loss due to sudden enlargement is given in terms of head lost. The formula for head loss due to sudden expansion is given by:

hl=V122×g(1−(d1d2)2)2 ...... (1)

Putting given values in equation (1)

hl=322×9.81(1−(45.2×10−384.4×10−3)2)2

hl=0.233 m

Conclusion:

Thus, the energy loss due to sudden enlargement in terms of head is hl=0.233 m.

Answer 14

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Determine the energy loss due to a sudden enlargement from a 50 mm O D x 2.4 mm wall plastic pipe to a 90 mm O D x 2.8 mm wall plastic pipe when the velocity of flow is 3 m/s in the smaller pipe.

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