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Power Plant Engineering, As per AICTE: Theory and Practice

Dipak Kumar Mandal, Somnath Chakrabarti, Arup Kumar Das, Prasanta Kumar Das

ISBN: 9788126579754

584 pages

eBook also available for institutional users 

INR 809

For more information write to us at: acadmktg@wiley.com

Description

Power Plant Engineering: Theory and Practice presents a comprehensive coverage mainly on thermal power plant engineering along with basic ideas on nuclear power generation systems, diesel engine and gas turbine power plant, and hydroelectric power plant, respectively. The topic, as prescribed in the syllabi of almost all engineering colleges and Indian universities either as a core subject or as an elective subject, is written in simple and lucid manner for undergraduate and postgraduate Mechanical and Electrical Engineering students, and for practicing engineers in power stations.

Chapter 1 Thermodynamic Vapour Power Cycles

1.1 Introduction

1.2 Carnot Vapour Power Cycle

1.3 Rankine Cycle

1.4 Steam Rate and Heat Rate

1.5 Comparisons between Rankine and Carnot Cycles

1.6 Mean Temperature of Heat Addition

1.7 Irreversibility in Rankine Cycle

1.8 Binary Vapour Cycle

1.9 Cogeneration

1.10 Different Efficiency Terms used in a Steam Power Plant

Chapter 2 Practical Power Plant Cycle

2.1 Introduction

2.2 Reheating Cycle

2.3 Regeneration (Internal Heating)

2.4 Regenerative Feed Water Heating

2.5 Types of Feed Water Heater

2.6 Practical High-Pressure Heater and Low-Pressure Heater

2.7 Deaerator

2.8 Combined Reheating and Regeneration Cycle

2.9 HP–LP Bypass System

2.10 Possible Methodologies for Improving the Steam Turbine Cycle Performance

2.11 Combined Cycle Plants

Chapter 3 Fuel and Combustion

3.1 Introduction

3.2 Coal

3.3 Spontaneous Combustion

3.4 Fuel Oil

3.5 Natural Gas as Fuel

3.6 Emulsions as Fuel

3.7 Industrial Waste as Fuel

3.8 Coal Gasification

3.9 Combustion Reactions and Air–Fuel Ratio

3.10 Combustion Equation

3.11 Heating Value of Fuel

3.12 Thermodynamic View of a Steam Generator

3.13 Mass Balance across a Steam Generator

3.14 Energy Balance across a Steam Generator

3.15 Heat of Combustion

3.16 Theoretical Flame Temperature

Chapter 4 Steam Generator, Feed Cycle, Air and Flue Gas Path

4.1 Introduction

4.2 Types of Boiling

4.3 Classification of Boiler

4.3.1 Fire Tube Boiler

4.3.2 Water Tube Boiler

4.4 Difference between Fire Tube and Water Tube Boiler

4.5 Circulation

4.6 Once Through Boiler

4.7 Boiler Mountings and Accessories

4.8 Feed Water Flow Path

4.9 Flue Gas Path

4.10 Fuel Flow Path

4.11 Coal Mills

4.12 Pulverised Fuel-Fired Boilers

4.13 Furnace Safeguard Supervisory System

4.14 Causes of Boiler Tripping

4.15 Ash Collection

4.16 Ash Handling System

4.17 Fluidised Bed Combustion

4.18 Different Fans in Boiler House

4.19 Water/Steam/Air/Flue Gas Path

4.20 Supercritical Boiler

4.21 Abnormal Operating Conditions of Boiler

Chapter 5 Boiler Performance and Draught Systems

5.1 Introduction

5.2 Equivalent Evaporation and Boiler Efficiency

5.3 Heat Balance in a Boiler

5.4 Efficiencies of Relevant Components of Boiler

5.5 Thermal Process Losses in a Power Plant

5.6 Draught/Draft

5.7 Natural Draught

5.8 Determination of Height, Diameter of Chimney and Condition for Maximum Discharge

5.9 Artificial Draught (by Fan)

5.10 Control of Fan Output

5.11 Efficiency of a Chimney

5.12 Calculation of Power Required to Drive ID/FD Fan

5.13 Abnormal Operating Conditions of Draught

Chapter 6 Steam Nozzles

6.1 Introduction

6.2 Theory of Steam Nozzles

6.3 Steady Flow Energy Equation

6.4 Mass Flow and Heat Drop through Nozzle

6.5 Expansion of Steam through Nozzle with Friction, Nozzle Efficiency

6.6 Expansion of Steam through Nozzle

6.7 Critical Pressure Ratio and its Physical Explanation

6.8 Subsonic and Supersonic Velocity

6.9 Velocity of Pressure Pulse in a Fluid

6.10 Supersaturated or Metastable Flow and Wilson Line

6.11 Nozzles Operating in the Off Design Pressure Ratio

Chapter 7 Steam Turbine

7.1 Introduction

7.2 Classification of Steam Turbines

7.3 Impulse Turbine

7.4 Velocity Diagram for an Impulse Turbine

7.5 Condition for Maximum Efficiency of an Impulse Turbine

7.6 Compounding of Impulse Turbine (Multistaging)

7.7 Velocity Diagram of a Velocity-Compounded Turbine

7.8 Reaction Turbine

7.9 Height of Blades for Reaction Turbine

7.10 Reheat Factor

7.11 Comparison between Impulse Turbine and Reaction Turbine

7.12 Governing of Steam Turbine

7.13 Losses in the Steam Turbine

7.14 Main Components of Steam Turbines

7.15 Barring Gear or Turning Gear

7.16 Jacking Oil Pump

7.17 Metallurgical Aspects of Turbine

7.18 Factors of Turbine Performance and Sizing

7.19 Limitations of the Higher Efficiency of Turbine

7.20 Critical Speed

7.21 Causes of Turbine Trip

7.22 General Description of a 210 MW (LMW) Steam Turbine

7.23 Abnormal-Operating Conditions of Turbine

Chapter 8 Condenser, Circulating Water Systems and Water Treatment

8.1 Introduction

8.2 Condenser

8.3 Cooling Tower

8.4 Auxiliary Cooling Water System

8.5 Water Treatment in Pretreatment Plant

8.6 Feedwater Treatment

8.7 Sodium Slippage

8.8 Abnormal Operating Conditions

Chapter 9 Turbogenerator

9.1 Introduction

9.2 Generator Cooling Systems

9.3 Generator Sealing System

9.4 Causes of Generator Tripping

9.5 Abnormal Operating Conditions of Generator

Chapter 10 Mechanical Control System

10.1 Introduction

10.2 Drum Level Control System

10.3 Superheater Steam Temperature Control System

10.4 HP–LP Bypass Control System

10.5 Hotwell Level Control System

10.6 Deaerator Level Control System

10.7 Heater Drip Level Control System

10.8 Draught Control System

10.9 Combustion Control System

10.10 Furnace Safeguard Supervisory System

Chapter 11 Basic Nuclear Power Generation

11.1 Introduction

11.2 Nuclear Physics

11.3 Types of Nuclear Reaction

11.4 Fission Chain Reaction

11.5 Types of Nuclear Materials

11.6 Difference between Nuclear Fission and Fusion

11.7 Nuclear Reactor

11.8 Classification of Reactors

11.9 Types of Nuclear Reactor

11.10 Difference between Boiling Water Reactor and Pressurized Water Reactor

11.11 Advantages and Disadvantages of Nuclear Power Plant

Chapter 12 Basic Diesel Engine and Gas Turbine

12.1 Introduction

12.2 Main Features of Gas Turbine Plant

Chapter 13 Basic Hydro-Electric (Hydel)

13.1 Introduction

13.2 Selection of Site for Hydroelectric Power Plant

13.3 Evaporation, Precipitation and Runoff

13.4 Hydrograph and Flow Duration Curve

13.5 Mass Curve

13.6 Essential Parts of a Hydroelectrical Power Plant

13.7 Classification of Hydroelectric Power Plant

13.8 Comparison between Base Load and Peak Load Power Plant

13.9 Types of Turbine

13.10 Pelton Wheel

13.11 Francis Turbine

13.12 Propeller and Kaplan Turbine

13.13 Deriaz Turbines

13.14 Comparisons of Pelton Wheel, Francis Turbine and Kaplan Turbine

13.15 Governing of Steam Turbine

13.16 Advantages and Disadvantages of Hydroelectric Power Plant

13.17 Generators Used in Hydroelectric Power Plant

Chapter 14 Nonconventional Energy Systems

14.1 Introduction

14.2 Wind Energy

14.3 Tidal Energy

14.4 Solar Thermal Energy

14.5 Solar Photo Voltaic Energy

14.6 Geothermal Energy

14.7 Biogas Energy

14.8 Fuel Cell Energy Systems

14.9 Advantages and Disadvantages of Nonconventional Energy Systems

Chapter 15 Power Plant and Its Economics

15.1 Introduction

15.2 Different Terms

15.3 Load Curve

15.4 Load Duration Curve

15.5 Location of Power Plants

15.6 Power Plant Economics

15.7 Different Methods to Calculate Depreciation Cost

15.8 Effect of Load Factor on Cost/Kwh

15.9 Performance and Operating Characteristics of Power Plant

Summary

Multiple-Choice Questions

Review Questions

Exercises

Answers

Index

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