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| power plant engineering: Power Plant Engineering Larry Drbal, Kayla Westra, Pat Boston, 2012-12-06 This comprehensive volume provides a complete, authoritative, up-to-date reference for all aspects of power plant engineering. Coverage ranges from engineering economics to coal and limestone handling, from design processes to plant thermal heat balances. Both theory and practical applications are covered, giving engineers the information needed to plan, design, construct, upgrade, and operate power plants. Power Plant Engineering is the culmination of experience of hundreds of engineers from Black & Veatch, a leading firm in the field for more than 80 years. The authors review all major power generating technologies, giving particular emphasis to current approaches. Special features of the book include: * More than 1000 figures and lines drawings that illustrate all aspects of the subject. * Coverage of related components and systems in power plants such as turbine-generators, feedwater heaters, condenser, and cooling towers. * Definitions and analyses of the features of various plant systems. * Discussions of promising future technologies. Power Plant Engineering will be the standard reference in the professional engineer's library as the source of information on steam power plant generation. In addition, the clear presentation of the material will make this book suitable for use by students preparing to enter the field. |
| power plant engineering: Power Plant Engineering C. Elanchezhian, L. Saravanakumar, B. Vijaya Ramnath, 2007 Power Plant Engineering has been designed for the students of B.E./B.Tech Mechanical Engineering. Divided in five units it will also prove to be a valuable source for practicing engineers and teachers.It provides all the necessary information about Power Plants and Steam Power Plant, Nuclear and Hydel Power Plants, Diesel and Gas Turbine Power Plants, Geothermal Plants, Ocean Thermal Plants, Tidal Power Plants, Solar Power Plants and Economics of various Power Plants.KEY FEATURES: Each chapter is accomplished with solved problems. Text has been supplemented with illustrated diagrams, tables, flow charts, and graphs wherever required, for clear understanding of students. Summary, at the end of each chapter helps students to review literature presented in the chapter. Review questions and exercise problems have been designed to enhance the engineering skills of students. |
| power plant engineering: Power Plant Engineering Farshid Zabihian, 2021-06-27 Our lives and the functioning of modern societies are intimately intertwined with electricity consumption. We owe our quality of life to electricity. However, the electricity generation industry is partly responsible for some of the most pressing challenges we currently face, including climate change and the pollution of natural environments, energy inequality, and energy insecurity. Maintaining our standard of living while addressing these problems is the ultimate challenge for the future of humanity. The objective of this book is to equip engineering and science students and professionals to tackle this task. Written by an expert with over 25 years of combined academic and industrial experience in the field, this comprehensive textbook covers both fossil fuels and renewable power generation technologies. For each topic, fundamental principles, historical backgrounds, and state-of-the-art technologies are covered. Conventional power production technologies, steam power plants, gas turbines, and combined cycle power plants are presented. For steam power plants, the historical background, thermodynamic principles, steam generators, combustion systems, emission reduction technologies, steam turbines, condensate-feedwater systems, and cooling systems are covered in separate chapters. Similarly, the historical background and thermodynamic principles of gas turbines, along with comprehensive discussions on compressors, combustors, and turbines, are presented and then followed with combined cycle power plants. The second half of the book deals with renewable energy sources, including solar photovoltaic systems, solar thermal power plants, wind turbines, ocean energy systems, and geothermal power plants. For each energy source, the available energy and its variations, historical background, operational principles, basic calculations, current and future technologies, and environmental impacts are presented. Finally, energy storage systems as required technologies to address the intermittent nature of renewable energy sources are covered. While the book has been written with the needs of undergraduate and graduate college students in mind, professionals interested in widening their understanding of the field can also benefit from it. |
| power plant engineering: Practical Power Plant Engineering Zark Bedalov, 2020-01-24 Practical Power Plant Engineering offers engineers, new to the profession, a guide to the methods of practical design, equipment selection and operation of power and heavy industrial plants as practiced by experienced engineers. The author—a noted expert on the topic—draws on decades of practical experience working in a number of industries with ever-changing technologies. This comprehensive book, written in 26 chapters, covers the electrical activities from plant design, development to commissioning. It is filled with descriptive examples, brief equipment data sheets, relay protection, engineering calculations, illustrations, and common-sense engineering approaches. The book explores the most relevant topics and reviews the industry standards and established engineering practices. For example, the author leads the reader through the application of MV switchgear, MV controllers, MCCs and distribution lines in building plant power distribution systems, including calculations of interrupting duty for breakers and contactors. The text also contains useful information on the various types of concentrated and photovoltaic solar plants as well as wind farms with DFIG turbines. This important book: • Explains why and how to select the proper ratings for electrical equipment for specific applications • Includes information on the critical requirements for designing power systems to meet the performance requirements • Presents tests of the electrical equipment that prove it is built to the required standards and will meet plant-specific operating requirements Written for both professional engineers early in their career and experienced engineers, Practical Power Plant Engineering is a must-have resource that offers the information needed to apply the concepts of power plant engineering in the real world. |
| power plant engineering: Power Plant Engineering Larry Drbal, Kayla Westra, Pat Boston, 1995-12-31 |
| power plant engineering: Power Plant Engineering A. K. Raja, Amit Prakash Srivastava, Manish Dwivedi, 2006 This Text-Cum-Reference Book Has Been Written To Meet The Manifold Requirement And Achievement Of The Students And Researchers. The Objective Of This Book Is To Discuss, Analyses And Design The Various Power Plant Systems Serving The Society At Present And Will Serve In Coming Decades India In Particular And The World In General. The Issues Related To Energy With Stress And Environment Up To Some Extent And Finally Find Ways To Implement The Outcome.Salient Features# Utilization Of Non-Conventional Energy Resources# Includes Green House Effect# Gives Latest Information S In Power Plant Engineering# Include Large Number Of Problems Of Both Indian And Foreign Universities# Rich Contents, Lucid Manner |
| power plant engineering: An Introduction to Thermal Power Plant Engineering and Operation P.K Das, A.K Das, 2018-11-08 This book is intended to meet the requirements of the fresh engineers on the field to endow them with indispensable information, technical know-how to work in the power plant industries and its associated plants. The book provides a thorough understanding and the operating principles to solve the elementary and the difficult problems faced by the modern young engineers while working in the industries. This book is written on the basis of ‘hands-on’ experience, sound and in-depth knowledge gained by the authors during their experiences faced while working in this field. The problem generally occurs in the power plants during operation and maintenance. It has been explained in a lucid language. |
| power plant engineering: POWER PLANT ENGINEERING GUPTA, MANOJ KUMAR, 2012-06-12 This textbook has been designed for a one-semester course on Power Plant Engineering studied by both degree and diploma students of mechanical and electrical engineering. It effectively exposes the students to the basics of power generation involved in several energy conversion systems so that they gain comprehensive knowledge of the operation of various types of power plants in use today. After a brief introduction to energy fundamentals including the environmental impacts of power generation, the book acquaints the students with the working principles, design and operation of five conventional power plant systems, namely thermal, nuclear, hydroelectric, diesel and gas turbine. The economic factors of power generation with regard to estimation and prediction of load, plant design, plant operation, tariffs and so on, are discussed and illustrated with the help of several solved numerical problems. The generation of electric power using renewable energy sources such as solar, wind, biomass, geothermal, tidal, fuel cells, magneto hydrodynamic, thermoelectric and thermionic systems, is discussed elaborately. The book is interspersed with solved problems for a sound understanding of the various aspects of power plant engineering. The chapter-end questions are intended to provide the students with a thorough reinforcement of the concepts discussed. |
| power plant engineering: Engineering of Power Plant and Industrial Cooling Water Systems Charles F. Bowman, Seth N. Bowman, 2021-08-23 This book provides a reference to analysis techniques of common cooling water system problems and a historical perspective on solutions to chronic cooling water system problems, such as corrosion and biofouling. It covers best design practices for cooling water systems that are required to support the operation of all electric power plants. Plant engineers will gain better understanding of the practical issues associated with their cooling water systems and new designs or modifications of their systems should consider the actual challenges to the systems. The book is intended for graduate students and practicing engineers working in both nuclear and fossil power plants and industrial facilities that use large amounts of cooling water. |
| power plant engineering: Power Plant Engineering Samsher Gautam, The book has been written for B.Tech / BE students in conformity with the syllabuses of various Indian universities. Special care has been taken to explain the complicated subject of power plant engineering in a language and with an approach so as to make it comprehensible and interesting to the undergraduate students. Thus, the basic concepts have been presented in brief but with full clarity. The orientation of the book has been kept towards the practical aspect of running the power plants while retaining the theoretical aspects at the same time, which is the unique feature of this book. Topics mentioned hereunder are either unique to this book or have received a focussed treatment: The book is replete with solved examples. Every chapter ends with a summary, objective type questions and review questions. Practical problems have been provided wherever required. References of related published works and website addresses have also been provided for further studies. |
| power plant engineering: Power Plant Engineering , 2019 |
| power plant engineering: Pow Plant Engg P. K. Nag, 2008-08-07 Meant for the undergraduate course on Power Plant Engineering studied by the mechanical engineering students, this book is a comprehensive and up-to-date offering on the subject. It has detailed coverage on hydro-electric, diesel engine and gas turbine power plants. Plenty of solved examples, exercise questions and illustrations make this a very student friendly text. |
| power plant engineering: A textbook of power plant engineering R. K. Rajput, 2008 |
| power plant engineering: Modern Power Plant Engineering Joel Weisman, Roy Eckart, 1985 |
| power plant engineering: Advanced Power Plant Materials, Design and Technology Dermot Roddy, 2010-05-24 Fossil-fuel power plants account for the majority of worldwide power generation. Increasing global energy demands, coupled with issues of ageing and inefficient power plants, have led to new power plant construction programmes. As cheaper fossil fuel resources are exhausted and emissions criteria are tightened, utilities are turning to power plants designed with performance in mind to satisfy requirements for improved capacity, efficiency, and environmental characteristics.Advanced power plant materials, design and technology provides a comprehensive reference on the state of the art of gas-fired and coal-fired power plants, their major components and performance improvement options. Part one critically reviews advanced power plant designs which target both higher efficiency and flexible operation, including reviews of combined cycle technology and materials performance issues.Part two reviews major plant components for improved operation, including advanced membrane technology for both hydrogen (H2) and carbon dioxide (CO2) separation, as well as flue gas handling technologies for improved emissions control of sulphur oxides (SOx), nitrogen oxides (NOx), mercury, ash and particulates. The section concludes with coverage of high-temperature sensors, and monitoring and control technology that are essential to power plant operation and performance optimisation.Part three begins with coverage of low-rank coal upgrading and biomass resource utilisation for improved power plant fuel flexibility. Routes to improve the environmental impact are also reviewed, with chapters detailing the integration of underground coal gasification and the application of carbon dioxide (CO2) capture and storage. Finally, improved generation performance is reviewed with coverage of syngas and hydrogen (H2) production from fossil-fuel feedstocks.With its distinguished international team of contributors, Advanced power plant materials, design and technology is a standard reference for all power plant engineers and operators, as well as to academics and researchers in this field. - Provides a comprehensive reference on the state-of-the-art gas-fired and coal-fired power plants, their major components and performance improvement options - Examines major plant components for improved operation as well as flue gas handling technologies for improved emissions control - Routes to improve environmental impact are discussed with chapters detailing the integration of underground coal gasification |
| power plant engineering: Steam Power Plant Engineering George Frederick Gebhardt, 1925 |
| power plant engineering: Power Plant Engineering P. K. Nag, 2002 |
| power plant engineering: Power Plant Engineering Hegde, 2015 Information on contemporary topics in power plant technology such as super critical boiler technology Practical approach to delineate complex topics with visual aids and representational schemes Exhaustive coverage of power generation from non-conventional sources of energy Ample solved examples, multiple-choice and exercise questions for practice. |
| power plant engineering: Nuclear Power Plant Engineering James H. Rust, 1979 |
| power plant engineering: Power Plant Engineering R. Pon Vengatesh, A. Allwyn Clarence Asis, 2010 |
| power plant engineering: Power Plant Engineering , 1920 |
| power plant engineering: LSC Powerplant Technology M. M. El-Wakil, 2002-10-21 This text is designed for courses in powerplant technology, powerplant engineering, and energy conversion offered in departments of mechanical engineering and nuclear engineering. It is also suitable as a supplement to courses in energy analysis offered in mechanical or nuclear engineering departments or energy analysis programs. It covers fossil, nuclear and renewable-energy powerplants with equal emphasis, giving students a complete and detailed understanding of the entire spectrum of power generation systems. |
| power plant engineering: Small and Micro Combined Heat and Power (CHP) Systems R Beith, 2011-04-30 Small and micro combined heat and power (CHP) systems are a form of cogeneration technology suitable for domestic and community buildings, commercial establishments and industrial facilities, as well as local heat networks. One of the benefits of using cogeneration plant is a vastly improved energy efficiency: in some cases achieving up to 80–90% systems efficiency, whereas small-scale electricity production is typically at well below 40% efficiency, using the same amount of fuel. This higher efficiency affords users greater energy security and increased long-term sustainability of energy resources, while lower overall emissions levels also contribute to an improved environmental performance.Small and micro combined heat and power (CHP) systems provides a systematic and comprehensive review of the technological and practical developments of small and micro CHP systems.Part one opens with reviews of small and micro CHP systems and their techno-economic and performance assessment, as well as their integration into distributed energy systems and their increasing utilisation of biomass fuels. Part two focuses on the development of different types of CHP technology, including internal combustion and reciprocating engines, gas turbines and microturbines, Stirling engines, organic Rankine cycle process and fuel cell systems. Heat-activated cooling (i.e. trigeneration) technologies and energy storage systems, of importance to the regional/seasonal viability of this technology round out this section. Finally, part three covers the range of applications of small and micro CHP systems, from residential buildings and district heating, to commercial buildings and industrial applications, as well as reviewing the market deployment of this important technology.With its distinguished editor and international team of expert contributors, Small and micro combined heat and power (CHP) systems is an essential reference work for anyone involved or interested in the design, development, installation and optimisation of small and micro CHP systems. - Reviews small- and micro-CHP systems and their techno-economic and performance assessment - Explores integration into distributed energy systems and their increasing utilisation of biomass fuels - Focuses on the development of different types of CHP technology, including internal combustion and reciprocating engines |
| power plant engineering: Fundamentals of Power Plant Engineering George Edward Remp, 1949 |
| power plant engineering: Thermal Power Plant Dipak Sarkar, 2015-08-21 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. |
| power plant engineering: Thermal Engineering in Power Systems Ryoichi Amano, Bengt Sundén, 2008 Research and development in thermal engineering for power systems are of significant importance to many scientists who are engaged in research and design work in power-related industries and laboratories. This book focuses on variety of research areas including Components of Compressor and Turbines that are used for both electric power systems and aero engines, Fuel Cells, Energy Conversion, and Energy Reuse and Recycling Systems. To be competitive in today's market, power systems need to reduce the operating costs, increase capacity factors and deal with many other tough issues. Heat Transfer and fluid flow issues are of great significance and it is likely that a state-of-the-art edited book with reference to power systems will make a contribution for design and R&D engineers and the development towards sustainable energy systems. |
| power plant engineering: Power Plant Engineers Guide Frank Duncan Graham, 1966 |
| power plant engineering: Steam Power Plant Engineering George Frederick Gebhardt, 1915 |
| power plant engineering: Thermal Engineering of Nuclear Power Stations Charles F. Bowman, Seth N. Bowman, 2022-02 The book serves as a ready reference to better analyze common engineering challenges in the areas of turbine cycle analysis, thermodynamics, and heat transfer. It covers mechanical aspects of the entire nuclear station balance-of-plant from the source of the motive steam to the discharge and/or utilization of waste heat and beyond. |
| power plant engineering: Electric Power Plant Engineering Joshua Weingreen, 1910 |
| power plant engineering: A Hybrid Approach for Power Plant Fault Diagnostics Tamiru Alemu Lemma, 2017-12-30 This book provides a hybrid approach to fault detection and diagnostics. It presents a detailed analysis related to practical applications of the fault detection and diagnostics framework, and highlights recent findings on power plant nonlinear model identification and fault diagnostics. The effectiveness of the methods presented is tested using data acquired from actual cogeneration and cooling plants (CCPs). The models presented were developed by applying Neuro-Fuzzy (NF) methods. The book offers a valuable resource for researchers and practicing engineers alike. |
| power plant engineering: Power Plant Engineering G. R. Nagpal, G R, 2008 |
| power plant engineering: Power Plant Engineering (PB) Black; Veatch, 2005-02 |
| power plant engineering: Power Plant Engineering Mahesh Varma, 1969 |
| power plant engineering: Power Plant Synthesis Dimitris Al. Katsaprakakis, 2020-06-11 Power Plant Synthesis provides an integrated approach to the operation, analysis, simulation, and dimensioning of power plants for electricity and thermal energy production. Fundamental concepts of energy and power, energy conversion, and power plant design are first presented, and integrated approaches for the operation and simulation of conventional electricity production systems are then examined. Hybrid power plants and cogeneration systems are covered, with operating algorithms, optimization, and dimensioning methods explained. The environmental impacts of energy sources are described and compared, with real-life case studies included to show the synthesis of the specific topics covered. |
| power plant engineering: Recent Improvements of Power Plants Management and Technology Aleksandar Nikolic, Žarko Janda, 2017-07-13 Since first AC current high-power hydropower plant was put in operation, built by Nikola Tesla and George Westinghouse in 1895 on Niagara Falls, electrification of the world has dramatically changed. The growing power demand and energy consumption in the last decades require fundamental changes in the process, power production, and services. These requirements tend to use both conventional and nonconventional energy generation in order to have power plants economically useful and environmentally friendly to the society. The goal of this textbook is to provide an up-to-date review of this important topic with specific emphasis on the current guidelines for improving overall efficiency, lowering emissions, and using large share of renewable energy. |
| power plant engineering: Thermal Power Plant Performance Analysis Gilberto Francisco Martha de Souza, 2012-01-04 The analysis of the reliability and availability of power plants is frequently based on simple indexes that do not take into account the criticality of some failures used for availability analysis. This criticality should be evaluated based on concepts of reliability which consider the effect of a component failure on the performance of the entire plant. System reliability analysis tools provide a root-cause analysis leading to the improvement of the plant maintenance plan. Taking in view that the power plant performance can be evaluated not only based on thermodynamic related indexes, such as heat-rate, Thermal Power Plant Performance Analysis focuses on the presentation of reliability-based tools used to define performance of complex systems and introduces the basic concepts of reliability, maintainability and risk analysis aiming at their application as tools for power plant performance improvement, including: · selection of critical equipment and components, · definition of maintenance plans, mainly for auxiliary systems, and · execution of decision analysis based on risk concepts. The comprehensive presentation of each analysis allows future application of the methodology making Thermal Power Plant Performance Analysis a key resource for undergraduate and postgraduate students in mechanical and nuclear engineering. |
Power plant engineering - Wikipedia
Power plant engineering, abbreviated as TPTL, is a branch of the field of energy engineering, and is defined as the engineering and technology required for the production of an electric power …
POWER PLANT ENGINEERING (R17A0326) - MRCET
A power plant is an industrial facility used to generate electric power with the help of one or more generators which converts different energy sources into electric power.
Power Plant Engineering - BIT Sindri
A power plant is assembly of systems or subsystems to generate electricity, i.e., power with economy and requirements.
All The Basics About Power Plant Engineering - Prismecs
Feb 11, 2024 · Power plant engineering is the field that deals with designing, operating, and maintaining places that produce electricity. It covers a broad spectrum, from managing daily …
POWER PLANT DESIGN MANUAL FOR DESIGN AND …
PURPOSE: This manual provides engineering guidelines and criteria for designing electric power plants where the size and characteristics of the electric power load and the configuration of the …
Power Plant Engineering - SpringerLink
A useful and comprehensive starting point for an engineer wishing to become familiar with conventional coal-fired power plant practice, including modern emission control systems.
UNIT V POWER PLANT Introduction to Power Plant …
A power plant is assembly of systems or subsystems to generate electricity, i.e., power with economy and requirements. The power plant itself must be useful economically and …
Power plant engineering - Wikipedia
Power plant engineering, abbreviated as TPTL, is a branch of the field of energy engineering, and is defined as the engineering and technology required for the production of an electric power …
POWER PLANT ENGINEERING (R17A0326) - MRCET
A power plant is an industrial facility used to generate electric power with the help of one or more generators which converts different energy sources into electric power.
Power Plant Engineering - BIT Sindri
A power plant is assembly of systems or subsystems to generate electricity, i.e., power with economy and requirements.
All The Basics About Power Plant Engineering - Prismecs
Feb 11, 2024 · Power plant engineering is the field that deals with designing, operating, and maintaining places that produce electricity. It covers a broad spectrum, from managing daily …
POWER PLANT DESIGN MANUAL FOR DESIGN AND …
PURPOSE: This manual provides engineering guidelines and criteria for designing electric power plants where the size and characteristics of the electric power load and the configuration of the …
Power Plant Engineering - SpringerLink
A useful and comprehensive starting point for an engineer wishing to become familiar with conventional coal-fired power plant practice, including modern emission control systems.
UNIT V POWER PLANT Introduction to Power Plant …
A power plant is assembly of systems or subsystems to generate electricity, i.e., power with economy and requirements. The power plant itself must be useful economically and …
