Description

Book Synopsis
This book presents the diverse and rapidly expanding field of Entropy Generation Minimization (EGM), the method of thermodynamic optimization of real devices. The underlying principles of the EGM method - also referred to as thermodynamic optimization, thermodynamic design, and finite time thermodynamics - are thoroughly discussed, and the method's applications to real devices are clearly illustrated.The EGM field has experienced tremendous growth during the 1980s and 1990s. This book places EGM's growth in perspective by reviewing both sides of the field - engineering and physics. Special emphasis is given to chronology and to the relationship between the more recent work and the pioneering work that outlined the method and the field.Entropy Generation Minimization combines the fundamental principles of thermodynamics, heat transfer, and fluid mechanics. EGM applies these principles to the modeling and optimization of real systems and processes that are characterized by finite size and finite time constraints, and are limited by heat and mass transfer and fluid flow irreversibilities.Entropy Generation Minimization provides a straightforward presentation of the principles of the EGM method, and features examples that elucidate concepts and identify recent EGM advances in engineering and physics. Modern advances include the optimization of storage by melting and solidification; heat exchanger design; power from hot-dry-rock deposits; the on & off operation of defrosting refrigerators and power plants with fouled heat exchangers; the production of ice and other solids; the maximization of power output in simple power plant models with heat transfer irreversibilities; the minimization of refrigerator power input in simple models; and the optimal collection and use of solar energy.

Table of Contents

(Chapter Titles)
Thermodynamics Concepts and Laws
Entropy Generation and Exergy Destruction
Entropy Generation in Fluid Flow
Entropy Generation in Heat Transfer
Heat Exchangers
Insulation Systems
Storage Systems
Power Generation
Solar-Thermal Power Generation
Refrigeration
Time-Dependent Operation
Appendices: Local Entropy Generation Rate. Variational Calculus.
Author Index
Subject Index

Entropy Generation Minimization The Method of Thermodynamic Optimization of FiniteSize Systems and FiniteTime Processes 2 Mechanical and Aerospace Engineering Series

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      View other formats and editions of Entropy Generation Minimization The Method of Thermodynamic Optimization of FiniteSize Systems and FiniteTime Processes 2 Mechanical and Aerospace Engineering Series by Adrian Bejan

      Publisher: Taylor & Francis Ltd (Sales)
      Publication Date: 10/20/1995 12:00:00 AM
      ISBN13: 9780849396519, 978-0849396519
      ISBN10: 0849396514
      Also in:
      Applied mathematics Physics: Fluid mechanics Mechanical engineering

      Description

      Book Synopsis
      This book presents the diverse and rapidly expanding field of Entropy Generation Minimization (EGM), the method of thermodynamic optimization of real devices. The underlying principles of the EGM method - also referred to as thermodynamic optimization, thermodynamic design, and finite time thermodynamics - are thoroughly discussed, and the method's applications to real devices are clearly illustrated.The EGM field has experienced tremendous growth during the 1980s and 1990s. This book places EGM's growth in perspective by reviewing both sides of the field - engineering and physics. Special emphasis is given to chronology and to the relationship between the more recent work and the pioneering work that outlined the method and the field.Entropy Generation Minimization combines the fundamental principles of thermodynamics, heat transfer, and fluid mechanics. EGM applies these principles to the modeling and optimization of real systems and processes that are characterized by finite size and finite time constraints, and are limited by heat and mass transfer and fluid flow irreversibilities.Entropy Generation Minimization provides a straightforward presentation of the principles of the EGM method, and features examples that elucidate concepts and identify recent EGM advances in engineering and physics. Modern advances include the optimization of storage by melting and solidification; heat exchanger design; power from hot-dry-rock deposits; the on & off operation of defrosting refrigerators and power plants with fouled heat exchangers; the production of ice and other solids; the maximization of power output in simple power plant models with heat transfer irreversibilities; the minimization of refrigerator power input in simple models; and the optimal collection and use of solar energy.

      Table of Contents

      (Chapter Titles)
      Thermodynamics Concepts and Laws
      Entropy Generation and Exergy Destruction
      Entropy Generation in Fluid Flow
      Entropy Generation in Heat Transfer
      Heat Exchangers
      Insulation Systems
      Storage Systems
      Power Generation
      Solar-Thermal Power Generation
      Refrigeration
      Time-Dependent Operation
      Appendices: Local Entropy Generation Rate. Variational Calculus.
      Author Index
      Subject Index

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