In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process. Concept introduction: Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation: Ideal work during expansion: W = m . [ Δ H − T σ Δ S ] The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process. η = W a c t u a l W i d e a l Rate of entropy generation: Δ S g = m . ( S 2 − S 1 ) Lost work calculated by the equation given below: W l o s t = T σ Δ S g

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Answer 1

Question

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

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Answer 2

Question

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

Expert Solution & Answer

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Answer 3

Question

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

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Answer 4

Question

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

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Answer 5

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

Answer 6

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

Answer 7

Chapter 7, Problem 7.28P

Interpretation Introduction

Interpretation:

In an expansion process find out ideal work, the thermodynamic efficiency of the process, lost work and rate of entropy generation in the process.

Concept introduction:

Expansion process is an increasing volume process. Free expansion in a process has been always irreversible. Ideal work in this process can be calculated by equation:

Ideal work during expansion:

W=m.[ΔH−TσΔS]

The efficiency of any process can be calculated by dividing the actual work required in a process to ideal work required for the same process.

η=WactualWideal

Rate of entropy generation:

ΔSg=m.(S2−S1)

Lost work calculated by the equation given below:

Wlost=TσΔSg

Answer 8

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Answer 9

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Answer 10

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Answer 11

Ch. 7 - Prob. 7.1P Ch. 7 - Prob. 7.2P Ch. 7 - Prob. 7.3P Ch. 7 - Prob. 7.4P Ch. 7 - Prob. 7.5P Ch. 7 - Prob. 7.6P Ch. 7 - Prob. 7.7P Ch. 7 - Prob. 7.8P Ch. 7 - Prob. 7.9P Ch. 7 - Prob. 7.10P

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Chapter 7 Solutions