Thermal/mechanical heat exchanger design--Karl Gardner Memorial Session
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Thermal/mechanical heat exchanger design--Karl Gardner Memorial Session presented at the Winter Annual Meeting of the American Society of Mechanical Engineers, Anaheim, California, December 7-12, 1986 by

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Published by ASME in New York, N.Y. (345 E. 47th St., New York 10017) .
Written in English

Subjects:

  • Heat exchangers -- Design and construction -- Congresses.

Book details:

Edition Notes

Includes bibliographies.

Statementsponsored by the Pressure Vessels and Piping Division, and the Heat Transfer Division, ASME ; edited by K.P. Singh, S.M. Shenkman.
SeriesPVP ;, vol. 118, HTD ;, vol. 64, PVP (Series) ;, vol. 118., HTD (Series) ;, v. 64.
ContributionsSingh, Krishna P., Shenkman, S. M., American Society of Mechanical Engineers. Winter Meeting
Classifications
LC ClassificationsTJ263 .T49 1985
The Physical Object
Paginationix, 139 p. :
Number of Pages139
ID Numbers
Open LibraryOL2747093M
LC Control Number86072840

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Completely revised and updated to reflect current advances in heat exchanger technology, Heat Exchanger Design Handbook, Second Edition includes enhanced figures and thermal effectiveness charts, tables, new chapter, and additional topics––all while keeping the qualities that made the first edition a centerpiece of information for practicing engineers, research, engineers, academicians Cited by: The basic concepts of sizing and design methodologies are provided for compact heat exchangers. Based on information provided in Chapters 4 and 5, the procedure for sizing, thermal design, pressure drop calculations and mechanical design of compact heat exchangers is .   Completely revised and updated to reflect current advances in heat exchanger technology, this book includes enhanced figures and thermal effectiveness charts, tables, new chapter, and additional topics, all while keeping the qualities that made the First Edition a centerpiece of information for practicing engineers, research, engineers, academicians, designers, and . This chapter gives detailed information about compact heat exchanger design, and in particular how the size and shape of the exchanger are affected by the thermal and allowable pressure drop requirements. Most compact heat exchangers are formed of layers of plates or .

Heat Exchanger Design Example..(e) Sol. no. D (inch) d (inch) N t Unit price per meter* (SR/m) 1 3 sch sch 9 2 4 sch 14 3 6 sch 23 4 8 sch 30 *Consider the no. of worth years for the heat exchanger is 4 years with zero interest rate (i=0, n=4) Alternative Solutions. Classification According to Heat Transfer Mechanisms 73 Summary 73 References 73 Review Questions 74 2 Overview of Heat Exchanger Design Methodology 78 Heat Exchanger Design Methodology 78 Process and Design Specifications 79 Thermal and Hydraulic Design 83 Mechanical Design A. Heat Exchanger The purpose of a heat exchanger is just that-to exchange heat. Most processes require the heating or cooling of streams to produce a desired temperature before the stream can be fed to any heat exchanger there must be a fluid that requires a change in energy (heating or cooling) and a fluid. A PHE consists of a pack of thin rectangular plates with portholes, through which two fluid streams flow, where heat transfer takes place. Other components are a frame plate (fixed plate), a pressure plate (movable plate), upper and lower bars and screws for compressing the pack of plates ().An individual plate heat exchanger can hold up to plates.

A description of the design, construction and applications of unfired heat exchangers used in the process industries, giving guidance on the merits and limitations of the different types, details of their materials of construction and cost and numerous examples of design calculations. A tubular heat exchanger exemplifies many aspects of the challenge in designing a pressure vessel. High or very low operating pressures and temperatures, combined with sharp temperature gradients, and large differences in the stiffnesses of adjoining parts, are amongst the legion of conditions that behoove the attention of the heat exchanger designer.   Proceedings of the ASME Heat Transfer Division, Volume 4 is an adjunct professor in the Mechanical Engineering Department and a senior research manager at the Center for Robotics and Manufacturing Systems in the College of Engineering at the University of Kentucky. He has authored numerous research and educational archival journal articles /5(3). This text/reference describes the construction and application of many of the unfired heat exchanger types used in the process industries. Also provides quick access to heat transfer and pressure loss data, plus manual thermal design methods and examples, for heat .