November 30, 2020

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Gas Turbine Engineering Handbook

Gas Turbine Engineering Handbook
Author : Meherwan P. Boyce
Publisher : Elsevier
Release Date : 2017-09-01
Category : Technology & Engineering
Total pages :962
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The Gas Turbine Engineering Handbook has been the standard for engineers involved in the design, selection, and operation of gas turbines. This revision includes new case histories, the latest techniques, and new designs to comply with recently passed legislation. By keeping the book up to date with new, emerging topics, Boyce ensures that this book will remain the standard and most widely used book in this field. The new Third Edition of the Gas Turbine Engineering Hand Book updates the book to cover the new generation of Advanced gas Turbines. It examines the benefit and some of the major problems that have been encountered by these new turbines. The book keeps abreast of the environmental changes and the industries answer to these new regulations. A new chapter on case histories has been added to enable the engineer in the field to keep abreast of problems that are being encountered and the solutions that have resulted in solving them. Comprehensive treatment of Gas Turbines from Design to Operation and Maintenance. In depth treatment of Compressors with emphasis on surge, rotating stall, and choke; Combustors with emphasis on Dry Low NOx Combustors; and Turbines with emphasis on Metallurgy and new cooling schemes. An excellent introductory book for the student and field engineers A special maintenance section dealing with the advanced gas turbines, and special diagnostic charts have been provided that will enable the reader to troubleshoot problems he encounters in the field The third edition consists of many Case Histories of Gas Turbine problems. This should enable the field engineer to avoid some of these same generic problems

Gas Turbines

Gas Turbines
Author : Claire Soares
Publisher : Elsevier
Release Date : 2014-10-23
Category : Technology & Engineering
Total pages :1020
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Covering basic theory, components, installation, maintenance, manufacturing, regulation and industry developments, Gas Turbines: A Handbook of Air, Sea and Land Applications is a broad-based introductory reference designed to give you the knowledge needed to succeed in the gas turbine industry, land, sea and air applications. Providing the big picture view that other detailed, data-focused resources lack, this book has a strong focus on the information needed to effectively decision-make and plan gas turbine system use for particular applications, taking into consideration not only operational requirements but long-term life-cycle costs in upkeep, repair and future use. With concise, easily digestible overviews of all important theoretical bases and a practical focus throughout, Gas Turbines is an ideal handbook for those new to the field or in the early stages of their career, as well as more experienced engineers looking for a reliable, one-stop reference that covers the breadth of the field. Covers installation, maintenance, manufacturer's specifications, performance criteria and future trends, offering a rounded view of the area that takes in technical detail as well as well as industry economics and outlook Updated with the latest industry developments, including new emission and efficiency regulations and their impact on gas turbine technology Over 300 pages of new/revised content, including new sections on microturbines, non-conventional fuel sources for microturbines, emissions, major developments in aircraft engines, use of coal gas and superheated steam, and new case histories throughout highlighting component improvements in all systems and sub-systems.

Dynamic Modelling of Gas Turbines

Dynamic Modelling of Gas Turbines
Author : Gennady G. Kulikov,Haydn A. Thompson
Publisher : Springer Science & Business Media
Release Date : 2004-06-03
Category : Technology & Engineering
Total pages :310
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Whereas other books in this area stick to the theory, this book shows the reader how to apply the theory to real engines. It provides access to up-to-date perspectives in the use of a variety of modern advanced control techniques to gas turbine technology.

Introduction to Marine Gas Turbines

Introduction to Marine Gas Turbines
Author : Naval Education and Training Program Development Center
Publisher : Unknown
Release Date : 1978
Category : Marine gas-turbines
Total pages :83
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Gas Turbines 3E

Gas Turbines 3E
Author : V. Ganesan
Publisher : Tata McGraw-Hill Education
Release Date : 2010-04-01
Category : Gas-turbines
Total pages :660
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This hallmark text on Gas Turbines covers all aspects of the subject. The topics have been explained right from the fundamentals so that even a beginner can comprehend the exposition. Various chapters such as Inlets and Nozzles, Blades, Environmental Considerations and Applications and Rocket Propulsion make the book complete. Theoretical descriptions of the topics is crisp and well organized without the presence of any superfluous content which is supported really well with the help of pedagogical features. This edition is a thoroughly revised and updated one. All in all a must read for the readers of Gas Turbines.

Progress in Gas Turbine Performance

Progress in Gas Turbine Performance
Author : Ernesto Benini
Publisher : BoD – Books on Demand
Release Date : 2013-06-19
Category : Technology & Engineering
Total pages :270
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There has been a remarkable difference in the research and development regarding gas turbine technology for transportation and power generation. The former remains substantially florid and unaltered with respect to the past as the superiority of air-breathing engines compared to other technologies is by far immense. On the other hand, the world of gas turbines (GTs) for power generation is indeed characterized by completely different scenarios in so far as new challenges are coming up in the latest energy trends, where both a reduction in the use of carbon-based fuels and the raising up of renewables are becoming more and more important factors. While being considered a key technology for base-load operations for many years, modern stationary gas turbines are in fact facing the challenge to balance electricity from variable renewables with that from flexible conventional power plants. The book intends in fact to provide an updated picture as well as a perspective view of some of the abovementioned issues that characterize GT technology in the two different applications: aircraft propulsion and stationary power generation. Therefore, the target audience for it involves design, analyst, materials and maintenance engineers. Also manufacturers, researchers and scientists will benefit from the timely and accurate information provided in this volume. The book is organized into three main sections including 10 chapters overall: (i) Gas Turbine and Component Performance, (ii) Gas Turbine Combustion and (iii) Fault Detection in Systems and Materials.

Theory and Design of Steam and Gas Turbines

Theory and Design of Steam and Gas Turbines
Author : John Francis Lee
Publisher : Unknown
Release Date : 1954
Category : Compressors
Total pages :502
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Fundamentals of Gas Turbines

Fundamentals of Gas Turbines
Author : William W. Bathie
Publisher : John Wiley & Sons Incorporated
Release Date : 1996
Category : Technology & Engineering
Total pages :453
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Presents the fundamentals of the gas turbine engine, including cycles, components, component matching, and environmental considerations.

Gas Turbines & Jet Propulsion

Gas Turbines & Jet Propulsion
Author : M.J. Sable M.S. Ramgir
Publisher : Technical Publications
Release Date : 2006
Category :
Total pages :523
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Fundamentals of gas Dynamics. Conservation of mass, Momentum and energy equations for one dimensional steady state compressible fluid flow. Sonic velocity, Mach number, Mach cone, Mach angle. Stagnation temperature, pressure and enthalpy. Isentropic flow through a passage of varying cross section. Choking in isentropic flow. Operations of nozzles under varying pressure ratios - Converging nozzles - Converging - Diverging nozzles. Adiabatic flow with frictions in constant area ducts. Fanno lines, Fanno relations for perfect gases. Concept of Rayleigh lines. Normal shock. Strength of shock wave and shocks in converging diverging nozzles.Centrifugal and axial flow compressors - Centrifugal compressor construction, flow process on T-S diagram, velocity diagram and Euler s work. Slip factor and its effect on work input. Actual work input, Dimensionless parameters of centrifugal compressors pre-whirl losses in centrifugal compressor, surging. Axial flow compressor - constructional details, velocity triangles and work done. Pressure rise and aerodynamic force in flow with the without friction. Cascade efficiency, Dimensionless parameters, losses in axial compressor stage choking flow. Stalling characteristics of centrifugal and axial flow compressor. Comparison between centrifugal and axial flow compressors. Compressor materials.Gas turbine cycles, Simple open cycle Brayton cycle Gas turbine - Thermal efficiency. Actual Brayton cycle - its thermal efficiency. Cycle air rate, work ratio optimum pressure ratio. Means of improving the efficiency and specific output. Gas turbine with reheat, inter-cooling. Regeneration. Effect of these on efficiency effect of operating variables on thermal efficiency, air rate and work ratio, water injection. Closed cycle gas turbines semi-cooling cycle gas turbine. Advantages and disadvantages of gas turbine over steam turbine and petrol and diesel engines.Impulse and reaction turbines - Introduction, A single impulse and reaction stage, Multistage machines, Velocity triangles. Work output, Blade loading and flow coefficients, Blade and stage efficiencies. Maximum utilization factor, velocity, pressure compounding reaction turbines, Blade to gas speed ratio losses and efficiencies performance graphs.Combustion systems - Introduction, combustion theory, factors affecting combustion chamber design and performance form of combustion systems. Requirement of combustion chamber process of combustion. Combustion chamber geometry mixing and dilution. Combustion chamber arrangements, Fuels for gas turbines, Flame tube cooling, Fuel injection and ignition. Fuel for gas turbine and pollution problems. Materials for gas turbines factors influencing selection of materials. Requirements for high temperature materials - Some typical materials. Blade cooling - Recent developments and typical applications.Jet propulsion cycles - Introduction, Ramjet, Pulse jet, Turbo prop - Turbojet, Turbofan engines, Scramjet. Thrust equations, specific thrusts, Thrust augmentation, Efficiencies, Parameters affecting performance ; thrust augmentation fuels for jet engines. Rocket propulsion - Introduction, classification. Chemical Rockets liquid propellants. Solid propellant, Nuclear rocket engines. Ion rocket, magneto plasma rocket engines, Solar rocket engines, staging of rockets, applications of rockets.

Gas Turbine Gas Charts

Gas Turbine Gas Charts
Author : United States. Navy Department. Bureau of Ships
Publisher : Unknown
Release Date : 1945
Category : Gas-turbines
Total pages :48
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Advanced Technologies for Gas Turbines

Advanced Technologies for Gas Turbines
Author : National Academies of Sciences, Engineering, and Medicine,Division on Engineering and Physical Sciences,Aeronautics and Space Engineering Board,Committee on Advanced Technologies for Gas Turbines
Publisher : National Academies Press
Release Date : 2020-04-19
Category : Science
Total pages :136
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Leadership in gas turbine technologies is of continuing importance as the value of gas turbine production is projected to grow substantially by 2030 and beyond. Power generation, aviation, and the oil and gas industries rely on advanced technologies for gas turbines. Market trends including world demographics, energy security and resilience, decarbonization, and customer profiles are rapidly changing and influencing the future of these industries and gas turbine technologies. Technology trends that define the technological environment in which gas turbine research and development will take place are also changing - including inexpensive, large scale computational capabilities, highly autonomous systems, additive manufacturing, and cybersecurity. It is important to evaluate how these changes influence the gas turbine industry and how to manage these changes moving forward. Advanced Technologies for Gas Turbines identifies high-priority opportunities for improving and creating advanced technologies that can be introduced into the design and manufacture of gas turbines to enhance their performance. The goals of this report are to assess the 2030 gas turbine global landscape via analysis of global leadership, market trends, and technology trends that impact gas turbine applications, develop a prioritization process, define high-priority research goals, identify high-priority research areas and topics to achieve the specified goals, and direct future research. Findings and recommendations from this report are important in guiding research within the gas turbine industry and advancing electrical power generation, commercial and military aviation, and oil and gas production.

Efficiency, Performance and Robustness of Gas Turbines

Efficiency, Performance and Robustness of Gas Turbines
Author : Albert Brose
Publisher : Unknown
Release Date : 2016-04-01
Category :
Total pages :318
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Gas turbine is the engine at the heart of the power plant that produces electric current. A gas turbine, also called a combustion turbine, is a type of internal combustion engine. It has an upstream rotating compressor coupled to a downstream turbine, and a combustion chamber in between. The basic operation of the gas turbine is similar to that of the steam power plant except that air is used instead of water. Fresh atmospheric air flows through a compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor and other devices such as an electric generator that may be coupled to the shaft. A gas turbine convert natural gas or other liquid fuels to mechanical energy. This energy then drives a generator that produces electrical energy. It is electrical energy that moves along power lines to homes and businesses. To generate electricity, the gas turbine heats a mixture of air and fuel at very high temperatures, causing the turbine blades to spin. The spinning turbine drives a generator that converts the energy into electricity. The purpose of the gas turbine determines the design so that the most desirable energy form is maximized. Gas turbines are used to power aircraft, trains, ships, electrical generators, and tanks. This book, Efficiency, Performance and Robustness of Gas Turbines, covers a wide range of issues related to analysis of gas turbines and their engineering applications. Gas turbine engine defect diagnostic and condition monitoring systems, operating conditions of open gas turbines, reduction of jet mixing noise, recovery of exhaust heat from gas turbines, appropriate materials and coatings, ultra micro gas turbines and applications of gas turbines are discussed.

Pounder's Marine Diesel Engines and Gas Turbines

Pounder's Marine Diesel Engines and Gas Turbines
Author : Doug Woodyard
Publisher : Butterworth-Heinemann
Release Date : 2009-08-18
Category : Technology & Engineering
Total pages :928
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Since its first appearance in 1950, Pounder's Marine Diesel Engines has served seagoing engineers, students of the Certificates of Competency examinations and the marine engineering industry throughout the world. Each new edition has noted the changes in engine design and the influence of new technology and economic needs on the marine diesel engine. Now in its ninth edition, Pounder's retains the directness of approach and attention to essential detail that characterized its predecessors. There are new chapters on monitoring control and HiMSEN engines as well as information on developments in electronic-controlled fuel injection. It is fully updated to cover new legislation including that on emissions and provides details on enhancing overall efficiency and cutting CO2 emissions. After experience as a seagoing engineer with the British India Steam Navigation Company, Doug Woodyard held editorial positions with the Institution of Mechanical Engineers and the Institute of Marine Engineers. He subsequently edited The Motor Ship journal for eight years before becoming a freelance editor specializing in shipping, shipbuilding and marine engineering. He is currently technical editor of Marine Propulsion and Auxiliary Machinery, a contributing editor to Speed at Sea, Shipping World and Shipbuilder and a technical press consultant to Rolls-Royce Commercial Marine. * Helps engineers to understand the latest changes to marine diesel engineers * Careful organisation of the new edition enables readers to access the information they require * Brand new chapters focus on monitoring control systems and HiMSEN engines. * Over 270 high quality, clearly labelled illustrations and figures to aid understanding and help engineers quickly identify what they need to know.

Gas Turbines and Jet Propulsion, Including Rocket, Hydrogen Peroxide, and Nuclear Power Plants

Gas Turbines and Jet Propulsion, Including Rocket, Hydrogen Peroxide, and Nuclear Power Plants
Author : Paul W. Gill
Publisher : Unknown
Release Date : 1952
Category : Gas-turbines
Total pages :129
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Gas Turbines,2E

Gas Turbines,2E
Author : V Ganesan
Publisher : Tata McGraw-Hill Education
Release Date : 2003-06-01
Category : Gas-turbines
Total pages :636
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