» Thermal Power Plants - Advanced Applications Edited by, ISBN 978-9-8, 186 pages, Publisher: InTech, Chapters published April 17, 2013 under DOI: 10.5772/46240 Edited Volume Thermal power plants are one of the most important process industries for engineering professionals. Over the past decades, the power sector is facing a number of critical issues; however, the most fundamental challenge is meeting the growing power demand in sustainable and efficient ways. Practicing power plant engineers not only look after operation and maintenance of the plant, but, also look after range of activities including research and development, starting from power generation to environmental aspects of power plants. The book Thermal Power Plants - Advanced Applications introduces analysis of plant performance, energy efficiency, combustion, heat transfer, renewable power generation, catalytic reduction of dissolved oxygen and environmental aspects of combustion residues. This book addresses issues related to both coal fired and steam power plants. The book is suitable for both undergraduate and research higher degree students, and of course for practicing power plant engineers.
Thermal Power Plant: Design and Operation deals with various aspects of a thermal power plant, providing a new dimension to the subject, with focus on operating practices and troubleshooting, as well as technology and design. Its author has a 40-long association with thermal power plants in design as well as field engineering, sharing his experience with professional engineers under various training capacities, such as training programs for graduate engineers and operating personnel. Thermal Power Plant presents practical content on coal-, gas-, oil-, peat- and biomass-fueled thermal power plants, with chapters in steam power plant systems, start up and shut down, and interlock and protection.
Its practical approach is ideal for engineering professionals. Key Features. Dedication. Acknowledgements. Preface. List of Acronyms/Abbreviations.
PRACTICAL BOILER OPERATION ENGINEERING AND POWER PLANT MALLICK, AMIYA RANJAN Edition: FOURTH EDITION ISBN: 978-81-203-5139-4 650.00 Pages: 616 Binding: Paper Back. The book will also be of immense use to the students of postgraduate diploma course in thermal power plant engineering. Introduction- STEAM POWER PLANT: A thermal power station is a power plant in which the prime mover is steam driven. Water is heated, turns into steam and spins a steam turbine which drives an electrical generator. Fired Furnaces for Thermal Power Generations 51 Audai Hussein Al-Abbas and Jamal Naser Chapter 4 Modernization of Steam Turbine Heat Exchangers Under Operation at Russia Power Plants 85 A. Ryabchikov Section 2 Sustainable Power Generation and Environmental Aspects 107 Chapter 5 Feasibility of a Solar Thermal Power Plant in Pakistan 109.
Chapter 1. Steam Power Plant Cycles. 1.1 Introduction. 1.2 Laws of Thermodynamics. 1.3 Carnot Cycle. 1.4 Stirling Cycle.
1.5 Ericsson Cycle. 1.6 Rankine Cycle. 1.7 Kalina Cycle. 1.8 Binary Vapor Cycle. 1.9 Problems. Bibliography.
Chapter 2. Steam Generators. 2.1 Introduction. 2.2 Boiling and Circulation. 2.3 Design. 2.4 Classification and Utilization. 2.5 Boiler Mounting and Accessories.
2.6 Superheaters and Reheaters. 2.7 Economizers. 2.8 Air Heaters.
2.9 Insulation. 2.10 Supercritical Boilers. 2.11 Problems. Bibliography.
Chapter 3. Fuels and Combustion. 3.1 Introduction. 3.2 Sources of Chemical Energy.
3.3 Availability of Fuels. 3.4 Characteristics of Coal.
3.5 Other Solid Fuels. 3.6 Petroleum and Natural Gas.
3.7 Principles of Combustion. 3.8 Combustion Calculations. 3.9 Design Aspect of Burner. 3.10 Flame Stability.
3.11 Design Aspects of Furnace. 3.12 Problems. Bibliography. Chapter 4. Pulverized Coal-Fired Boilers. 4.1 Brief History. 4.2 Combustion of Pulverized Coal.
4.3 Pulverizer Performance. 4.4 Coal Burners (Figure 4.8). 4.5 Pulverizer System Design. 4.6 Classification of Pulverizers.
4.7 Coal Preparation Systems. 4.8 Coal Feeders.
Bibliography. Chapter 5. Fluidized-Bed Combustion Boilers.
5.1 Brief History. 5.2 The Technology. 5.3 Categories of FBC. 5.4 Design Variables.
5.5 Bubbling Fluidized-bed Combustion (BFBC) Boilers. 5.6 Circulating Fluidized-bed Combustion (CFBC) Boilers. 5.7 Pressurized Fluidized-bed Combustion (PFBC) Boilers. 5.8 Start-Up and Loading of PFBC Boilers. 5.9 Problems.
Bibliography. Chapter 6. Steam Turbines. 6.1 Introduction.
6.2 Type of Steam Turbine. 6.3 Classification of Steam Turbines. 6.4 Components of Steam Turbines. 6.5 Methods of Turbine Governing.
6.6 Turbine Governing System. 6.7 Turbine Lubrication System. 6.8 Speed Control System. 6.9 Turbine Losses. 6.10 Operating Regime.
Bibliography. Chapter 7. Gas Turbine and Heat Recovery Steam Generator. 7.1 Introduction.
7.2 Ideal Brayton Cycle. 7.3 Real Brayton Cycle. 7.4 Improvement of Performance.
7.5 Gas Turbine Systems and Equipment. 7.6 Heat Recovery Steam Generator (HRSG). 7.7 Problems. Bibliography. Chapter 8.
Diesel Power Plant. 8.1 Introduction.
8.2 Thermodynamic Cycle. 8.3 Design. 8.4 Equipment and Accessories. 8.5 Diesel Engine Systems. 8.6 Problems. Bibliography. Chapter 9.
Steam Power Plant Systems. 9.1 Introduction. 9.2 Mechanical Systems. 9.3 Electrical Systems.
Chapter 10. Automatic Control. 10.1 Introduction. 10.2 Automatic Boiler Control. 10.3 Automatic Control of Turbine.
10.4 Coordinated Control System. 10.5 Automatic Control of Regenerative System. Bibliography. Chapter 11. Interlock and Protection. 11.1 Introduction. 11.2 Steam Generator.
11.3 Fuel-Firing Equipment. 11.4 Steam Turbine. 11.5 Gas Turbine. 11.6 Diesel Engine. 11.7 Generator (Alternator). Bibliography.
Chapter 12. Start-Up and Shut-Down.
12.1 Introduction. 12.2 Start-Up of Steam Generator. 12.3 Normal Shut-Down of Steam Generator.
12.4 Emergency Shut-Down of Steam Generator. 12.5 Start-Up of Steam Turbine. 12.6 Normal Shut-Down of Steam Turbine. 12.7 Emergency Shut-Down of Steam Turbine. 12.8 APS.
12.9 Start-Up of Gas Turbine. 12.10 Normal Shut-Down of Gas Turbine.
12.11 Emergency Shut-Down of Gas Turbine. 12.12 Start-Up of Diesel Engine. 12.13 Normal Shut-Down of Diesel Engine. 12.14 Emergency Shut-Down of Diesel Engine.
Bibliography. Chapter 13. Abnormal Operating Conditions.
13.1 Introduction. 13.2 Abnormal Operating Conditions of Steam Generators. 13.3 Abnormal Operating Conditions of Steam Turbines. 13.4 Abnormal Operating Conditions of Gas Turbines. 13.5 Abnormal Operating Conditions of Diesel Engines. 13.6 General Electrical Faults.
Bibliography. Chapter 14. Air Pollution Control. 14.1 Introduction. 14.2 Control of Suspended Particulate Emission. 14.3 Reduction of Greenhouse Gas Emission.
14.4 Methods of SOX Emission Control. 14.5 Methods of NOx Emission Control.
14.6 Reduction of Mercury Emission. 14.7 Problems. Bibliography. Chapter 15. Codes and Standards for Power Plant Design and Operation. 15.1 Introduction.
15.2 Benefits. 15.3 Issuing Organizations. 15.4 Commonly Used Codes and Standards.
Windactylo download itunes. Bibliography. Appendix A. Power from Renewable Energy.
A.1 Introduction. A.2 Solar Energy. A.3 Wind Energy. A.4 Geothermal Energy. A.5 Ocean Thermal Energy. A.6 Tidal Energy. A.7 Wave Energy.
A.8 Hydraulic Turbine. A.9 Energy From Biomass.
Bibliography. Appendix B. Power from Nuclear Energy. B.1 Introduction.
B.2 Pressurized-Water Reactor (PWR). B.3 Boiling-Water Reactor (BWR). B.4 Gas-Cooled Reactor (GCR). B.5 Heavy-Water Reactor (HWR). B.6 Fast-Breeder Reactor (FBR). Bibliography. Appendix C.
Thermal Efficiency Of Power Plants
Index. Dipak Sarkar has over 40 years of experience in the field of Mechanical Engineering & Power Plant Operation with rich experience in Diesel Generator Plant, Combined Cycle Power Plant and Coal-fired Sub-critical and Supercritical Thermal Power Plants. During this time, he has shared his experience with professional engineers under various training schemes, like training programs for graduate engineers and operating personnel. He was recently the Executive Director of Administrative & Technology Control of Various Power Projects, and is now a Guest Faculty in the Department of Power Engineering at Jadavpur University.