Heat exchangers for practical heat recovery.
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Heat exchangers for practical heat recovery. by Hitash Patel

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Published .
Written in English

Book details:

Edition Notes

ContributionsManchester Polytechnic. Department of Mechanical, Production and Chemical Engineering.
ID Numbers
Open LibraryOL13881559M

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Heat Exchangers DOE-HDBK/ TYPES OF HEAT EXCHANGERS. TYPES OF HEAT EXCHANGERS. In almost any nuclear, chemical, or mechanical system, heat must be transferred from one place to another or from one fluid to another. Heat exchangers are used to transfer heat from one fluid to another. A basic understanding of theFile Size: KB. Heat recovery systems can take the form of air-to-air or air-to-liquid heat exchangers, or they can be specially designed boilers known as heat recovery steam generators (HRSG). Heat recovery systems can be installed in conjunction with reciprocating engines, fuel cells, industrial turbines, micro-turbines, and Stirling engines. IV Resources 1. In book: Matlab, A fundamental tool for scientific computing and engineering applications, Chapter: Fouling in heat exchangers, Publisher: Sciyo, Editors: Vasilios N. Katsikis, pp In heat exchanger applications, stainless steel finned tubes are often required for the optimum design for a specific tubes are generally produced by helically winding strip on to tubes, Fig. The heat exchange efficiency of the finning depends on good heat conduction across the joint between the fin and tube interfaces.

CHAPTER 17 HEAT EXCHANGERS R. K. Shah* and D. R Sekulib University of Kentucky INTRODUCTION A heat exchanger is a device that is used for transfer of thermal energy (enthalpy) between two or more fluids, between a solid surface and a fluid, or between solid particulates and aFile Size: 2MB. The book is extensively illustrated with figures in support of the text and includes calculation examples to ensure users are fully equipped to select, design, and operate heat exchangers. Covers design method and practical correlations needed to design practical heat exchangers for process application; Includes geometrical calculations for the. a| "This comprehensive reference covers all the important aspects of heat exchangers (HEs): design and modes of operation and practical, large-scale applications in process, power, petroleum, transport, air conditioning, refrigeration, cryogenics, heat recovery, energy, and other industries. It includes over drawings, diagrams, tables, and equations, making it a great resource for. Contents VIII FoulingTendencies 32 Typesand Phases ofFluids 32 Maintenance,Inspection, Cleaning,Repair,and ExtensionAspects 32 OverallEconomy 32 Fabrication Techniques 33 ChoiceofUnitTypefor IntendedApplications 33 RequirementsofHeatExchangers 34 References 34 SuggestedReadings 35 Bibliography 35 Chapter2.