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by Jose A. Camberos,Greg F. Naterer

  • ISBN: 0849372623
  • Category: Engineering
  • Author: Jose A. Camberos,Greg F. Naterer
  • Subcategory: Engineering
  • Other formats: lrf lrf txt mobi
  • Language: English
  • Publisher: CRC Press; 1 edition (February 27, 2008)
  • Pages: 344 pages
  • FB2 size: 1551 kb
  • EPUB size: 1347 kb
  • Rating: 4.1
  • Votes: 688
Download Entropy Based Design and Analysis of Fluids Engineering Systems fb2

From engineering fluid mechanics to power systems, information coding theory and other fields, entropy is key to maximizing performance in engineering systems.

From engineering fluid mechanics to power systems, information coding theory and other fields, entropy is key to maximizing performance in engineering systems.

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Greg F. From engineering fluid mechanics to power systems, information coding theory and other fields, entropy is key to maximizing performance in engineering systems

Greg F. From engineering fluid mechanics to power systems, information coding theory and other fields, entropy is key to maximizing performance in engineering systems. Entropy based design (EBD) can shed new light on various flow. Second Law Formulation. Numerical Compliance with the Second Law. Experimental Analysis. Measurements and the Entropy Condition.

Naterer, . Camberos, J. (2008) From engineering fluid mechanics to power systems, information coding theory . (2008). By Greg F. 344 pages 130 B/W Illus.

Thermodynamic analysis methods, based on an exergy metric, have been developed to improve system efficiency of traditional heat .

Thermodynamic analysis methods, based on an exergy metric, have been developed to improve system efficiency of traditional heat driven systems such as ground based power plants and aircraft propulsion systems. With a foreword by David J. Moorhouse.

Entropy-Based Design and Analysis of Fluids Engineering Systems. Naterer, José A. Camberos

Entropy-based design and analysis of fluids engineering systems. Introduction Introduction Governing Equations of Fluid Flow and Heat Transfer Mathematical Properties of Entropy and Exergy Governing Equations of Entropy and the Second Law Formulation of Entrop. More).

com's Greg F. Naterer Page and shop for all Greg F. Naterer books. Naterer and Jose A. Check out pictures, bibliography, and biography of Greg F. Naterer.

From engineering fluid mechanics to power systems, information coding theory and other fields, entropy is key to maximizing performance in engineering systems. It serves a vital role in achieving the upper limits of efficiency of industrial processes and quality of manufactured products. Entropy based design (EBD) can shed new light on various flow processes, ranging from optimized flow configurations in an aircraft engine to highly ordered crystal structures in a turbine blade.Entropy Based Design of Fluid Engineering Systems provides an overview of EBD as an emerging technology with applications to aerospace, microfluidics, heat transfer, and other disciplines. The text extends past analytical methods of Entropy Generation Minimization to numerical simulations involving more complex configurations and experimental measurement techniques. The book begins with an extensive development of basic concepts, including the mathematical properties of entropy and exergy, as well as statistical and numerical formulations of the second law. It then goes on to describe topics related to incompressible flows and the Second Law in microfluidic systems. The authors develop computational and experimental methods for identifying problem regions within a system through the local rates of entropy production. With these techniques, designers can use EBD to focus on particular regions where design modifications can be made to improve system performance. Numerous case studies illustrate the concepts in each chapter, and cover an array of applications including supersonic flows, condensation and turbulence. A one-of-a-kind reference, Entropy Based Design of Fluid Engineering Systems outlines new advances showing how local irreversibilities can be detected in complex configurations so that engineering devices can be re-designed locally to improve overall performance.

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