Author: Bernard Lubarsky
Publisher:
ISBN:
Category :
Languages : en
Pages : 82
Book Description
Design of Gas Turbine Regenerators for Minimum Weight
Gas-Turbine Regenerators
Author: Douglas Beck
Publisher: Springer Science & Business Media
ISBN: 1461312094
Category : Technology & Engineering
Languages : en
Pages : 271
Book Description
Regenerative gas turbines are attractive alternatives to diesel engines and spark ignition engines for automobiles and to diesel engines and combined-cycle en gines for power generation. Theory indicates regenerative gas turbines should achieve higher thermal efficiencies than those of diesel engines and combined cycle engines. Further, regenerative gas turbines are potentially lower in cost, require less maintenance, require less space, and pollute less than competitive systems. Regenerators can be used for exhaust-gas heat exchange or for intercooling in gas-turbine systems. As an exhaust-gas heat exchanger, a regenerator recovers heat from the exhaust and uses it to preheat the compressed air before the compressed air enters the combustor. Preheating of the compressed air permits a small heat input to the combustor for a given power output of the engine. As an intercooler, a regenerator cools the gas between compressor stages. Less work is required to compress cool gas than is required to compress warm gas. Therefore, a regenerator intercooler can reduce the required work input to the compressor. Thus, regenerators can be used to increase the thermal efficiencies and power outputs of gas turbines. the backbones of high-performance re High-performance regenerators are generative gas turbines. In the past, lack of understanding of regenerator per formance has led to sub-optimal engine designs. Now this book gives com prehensive regenerator information. With this book, the designer can design regenerators that will yield gas turbines with maximum thermal efficiencies.
Publisher: Springer Science & Business Media
ISBN: 1461312094
Category : Technology & Engineering
Languages : en
Pages : 271
Book Description
Regenerative gas turbines are attractive alternatives to diesel engines and spark ignition engines for automobiles and to diesel engines and combined-cycle en gines for power generation. Theory indicates regenerative gas turbines should achieve higher thermal efficiencies than those of diesel engines and combined cycle engines. Further, regenerative gas turbines are potentially lower in cost, require less maintenance, require less space, and pollute less than competitive systems. Regenerators can be used for exhaust-gas heat exchange or for intercooling in gas-turbine systems. As an exhaust-gas heat exchanger, a regenerator recovers heat from the exhaust and uses it to preheat the compressed air before the compressed air enters the combustor. Preheating of the compressed air permits a small heat input to the combustor for a given power output of the engine. As an intercooler, a regenerator cools the gas between compressor stages. Less work is required to compress cool gas than is required to compress warm gas. Therefore, a regenerator intercooler can reduce the required work input to the compressor. Thus, regenerators can be used to increase the thermal efficiencies and power outputs of gas turbines. the backbones of high-performance re High-performance regenerators are generative gas turbines. In the past, lack of understanding of regenerator per formance has led to sub-optimal engine designs. Now this book gives com prehensive regenerator information. With this book, the designer can design regenerators that will yield gas turbines with maximum thermal efficiencies.
Gas Turbine Regenerator Design Studies
Author: Stanford University. Department of Mechanical Engineering
Publisher:
ISBN:
Category :
Languages : en
Pages : 124
Book Description
Publisher:
ISBN:
Category :
Languages : en
Pages : 124
Book Description
Optimum Design of Gas Turbine Regenerators
Development of a Gas Turbine with Regenerator and Utilization of Coal and Fuel for Gas Turbines
Author: W. Robinson
Publisher:
ISBN:
Category : Gas-turbine power-plants
Languages : en
Pages : 16
Book Description
Publisher:
ISBN:
Category : Gas-turbine power-plants
Languages : en
Pages : 16
Book Description
Optimum Design of Gas Turbine Regenerators
Design and Construction of the Regenerators of the Regenerator-gas-turbine
Experimental Performance of the Regenerator for the Chrysler Upgraded Automotive Gas Turbine Engine
Author: Jerry M. Winter
Publisher:
ISBN:
Category : Automotive gas turbines
Languages : en
Pages : 72
Book Description
Publisher:
ISBN:
Category : Automotive gas turbines
Languages : en
Pages : 72
Book Description
Small Gas Turbine Engine Component Technology Regenerator Development. Phase I, Preliminary Component Testing and Regenerator Design
Author: Harry A. Spaight
Publisher:
ISBN:
Category :
Languages : en
Pages : 192
Book Description
This report describes the work accomplished during the 12-month Phase I portion of a 32-month program for the advancement of toroidal rotary regenerator technology for small gas turbine engines. The regenerator component work included analytical and experimental evaluation of candidate heat transfer surfaces where previous data did not exist; experimental determination of matrix airflow distribution and corrective measures; and refinement of seal system components, including all-metal inner diameter seals. The optimum matrix and seal configurations determined from these component tests were evaluated in an existing regenerator which was run at conditions simulating small gas turbine operation. As a result of these component investigations, major improvements in regenerator technology were made and were incorporated into the design of a flight-weight high-effectiveness toroidal rotary regenerator designed during Phase I. (Author).
Publisher:
ISBN:
Category :
Languages : en
Pages : 192
Book Description
This report describes the work accomplished during the 12-month Phase I portion of a 32-month program for the advancement of toroidal rotary regenerator technology for small gas turbine engines. The regenerator component work included analytical and experimental evaluation of candidate heat transfer surfaces where previous data did not exist; experimental determination of matrix airflow distribution and corrective measures; and refinement of seal system components, including all-metal inner diameter seals. The optimum matrix and seal configurations determined from these component tests were evaluated in an existing regenerator which was run at conditions simulating small gas turbine operation. As a result of these component investigations, major improvements in regenerator technology were made and were incorporated into the design of a flight-weight high-effectiveness toroidal rotary regenerator designed during Phase I. (Author).
Heat Exchanger Design
Author: Arthur P. Fraas
Publisher: John Wiley & Sons
ISBN: 9780471628682
Category : Technology & Engineering
Languages : en
Pages : 568
Book Description
This Second Edition of the well-received work on design, construction, and operation of heat exchangers. Demonstrates how to apply theories of fluid mechanics and heat transfer to practical problems posed by design, testing, and installation of heat exchangers. Tables and data have been brought up to date, and there is new material on problems of vibration and fouling, and on optimization of energy use in the chemical process and manufacturing industries. Covers all basic principles of heat exchanger design, and addresses many specialized situations encountered in engineering applications.
Publisher: John Wiley & Sons
ISBN: 9780471628682
Category : Technology & Engineering
Languages : en
Pages : 568
Book Description
This Second Edition of the well-received work on design, construction, and operation of heat exchangers. Demonstrates how to apply theories of fluid mechanics and heat transfer to practical problems posed by design, testing, and installation of heat exchangers. Tables and data have been brought up to date, and there is new material on problems of vibration and fouling, and on optimization of energy use in the chemical process and manufacturing industries. Covers all basic principles of heat exchanger design, and addresses many specialized situations encountered in engineering applications.