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Heat exchanger engineering techniques : process, air conditioning, and electronic systems : a treatise on heat exchanger installations that did not meet performance PDF

335 Pages·2003·10.37 MB·English
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Preview Heat exchanger engineering techniques : process, air conditioning, and electronic systems : a treatise on heat exchanger installations that did not meet performance

HEAT EXCHANGER ENGINEERING TECHNIQUES PROCESS, AIR CONDITIONING, AND ELECTRONIC SYSTEMS A Treatise on Heat Exchanger Installations That Did Not Meet Performance Michael J. Nee ASME Press The American Society of Mechanical Engineers New York, New York Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use Copyright © 2003 The American Society of Mechanical Engineers Three Park Ave., New York, NY 10016 Library of Congress Cataloging-in-Publication Data Nee, Michael J., 1924- Heat exchanger engineering techniques: process, air conditioning, and electronic systems/Michael J. Nee p. cm. Includes bibliographical references and index. ISBN 0-7918-0167-5 1. Heat exchangers. 2. Cooling. 3. Industrial buildings—Air conditioning. I. Title. TH7684.F2N44 2003 621.402’5—dc21 2003040423 All rights reserved. Printed in the United States of America. Except as permitted under the United States Copyright Act of 1976, no part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written permission of the publisher. Statement from By-Laws: The Society shall not be responsible for statements or opinions advanced in papers . . . or printed in its publications(B7.1.3) INFORMATION CONTAINED IN THIS WORK HAS BEEN OBTAINED BY THE AMERICAN SOCIETY OF MECHANICAL ENGINEERS FROM SOURCES BELIEVED TO BE RELIABLE. HOWEVER, NEITHER ASME NOR ITS AUTHORS OR EDITORS GUARANTEE THE ACCURACY OR COMPLETENESS OF ANY INFORMATION PUBLISHED IN THIS WORK. NEITHER ASME NOR ITS AUTHORS AND EDITORS SHALL BE RESPONSIBLE FOR ANY ERRORS, OMISSIONS, OR DAMAGES ARISING OUT OF THE USE OF THIS INFORMATION. THE WORK IS PUBLISHED WITH THE UNDERSTANDING THAT ASME AND ITS AUTHORS AND EDITORS ARE SUPPLYING INFORMATION BUT ARE NOT ATTEMPTING TO RENDER ENGINEERING OR OTHER PROFESSIONAL SERVICES. IF SUCH ENGINEERING OR PROFESSIONAL SERVICES ARE REQUIRED, THE ASSISTANCE OF AN APPROPRIATE PROFESSIONAL SHOULD BE SOUGHT. For authorization to photocopy material for internal or personal use under circumstances not falling within the fair use provisions of the Copyright Act, contact the Copyright Clearance Center (CCC), 222 Rosewood Drive, Danvers, MA 01923, Tel: 978-750-8400, www.copyright.com. Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use To My Wife, Virginia, and to Our Children, Michael, Mary, Rita, and Tim Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use Engineering It is a great profession. There is the fascination of watching a figment of the imagination emerge through the aid of science to a plan on paper. Then it moves to realization in stone or metal or energy. Then it brings jobs and homes to men. Then it elevates the standards of living and adds to the comforts of life. That is the engineer’s high privilege. The great liability of the engineer compared to men of other professions is that his works are out in the open where all can see them. His acts, step by step, are in hard substance. He cannot bury his mistakes in the grave like the doc- tors. He cannot argue them into thin air or blame the judge like the lawyers. He cannot, like the architects, cover his failures with trees and vines. He cannot, like the politicians, screen his shortcomings by blaming his opponents and hope the people will forget. The engineer simply cannot deny he did it. If his works do not work, he is damned. . . . On the other hand, unlike the doctor his is not a life among the weak. Unlike the soldier, destruction is not his purpose. Unlike the lawyer, quarrels are not his daily bread. To the engineer falls the job of clothing the bare bones of science with life, comfort, and hope. No doubt as years go by the people forget which engineer did it, if they ever knew. Or some politician puts his name on it. Or they credit it to some promoter who used other people’s money. . . . But the engi- neer himself looks back at the unending stream of goodness which flows from his successes with satisfactions that few professions may know. And the verdict of his fellow professionals is all the accolade he wants. Herbert Hoover Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use Contents Preface xv Acknowledgment xix List of Figures xxi List of Tables xxv Part 1 Process Exchangers 1 Chapter 1 Personnel and Requirements 3 1.1 The Selection of Exchangers..................................................................3 1.2 Personnel Involved in Identifying Requirements..................................4 1.3 Requirements by Application...............................................................14 1.4 Problems Due to a Missing Requirement............................................16 1.5 Requirements That Define What Is and What Is Not Wanted...........21 1.6 Requirements for Fluid Properties......................................................21 1.7 Summary of Problem Areas.................................................................22 1.8 Cleaning and Fouling............................................................................23 1.9 Contract Requirements between Seller and Buyer.............................23 Chapter 2 Considerations before Finalizing the Selection 25 2.1 Considerations Before Finalizing the Selection..................................26 2.2 Effect of Tube Length and Mechanical Cleaning upon Cost..............26 2.3 Parallel Flow..........................................................................................28 2.4 Tube-Side Considerations in Selecting an Exchanger........................29 Chapter 3 Considerations in Selecting Shell-and-Tube Exchangers 45 3.1 General..................................................................................................45 3.2 Tube Sizes and Patterns........................................................................45 3.3 Shell-Side Designation and Nomenclature.........................................47 3.4 Shell Types.............................................................................................50 3.5 Front-End Types....................................................................................54 3.6 Summary of Shell-and-Tube Designs and Their Limitations.............58 Chapter 4 Air Coolers 59 4.1 Beginning the Process of Selecting an Air Cooler...............................63 4.2 Some Governing Conditions................................................................63 4.3 Structural Considerations....................................................................66 vii Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use viii • Contents 4.4 Forced- versus Induced-Draft Air Coolers...........................................69 4.5 Process Heat Transfer Coil or Section.................................................71 4.6 Plate-Fin and Spiral-Fin Extended-Surface Exchangers....................77 4.7 Duct Coolers..........................................................................................79 4.8 Selecting Several Air Coolers to Dissipate Heat..................................79 4.9 Calculating Surface and Airflow Area for Fin Coils............................81 Chapter 5 Extended-Surface Metallurgy 87 5.1 Selecting Aluminum or Copper Fins...................................................87 5.2 Fins of Materials Other Than Copper or Aluminum..........................89 5.3 Lowfin Tubes.........................................................................................92 5.4 Some Rules of Thumb for Finned Surfaces........................................92 Chapter 6 Air Cooler Fans or Blowers 95 6.1 Fan Coverage and Bundle Geometry...................................................95 6.2 Fans and Blowers..................................................................................98 6.3 Fan Drives.............................................................................................99 Chapter 7 Exchangers with Longitudinal-Fin Tubes 103 7.1 Double-Pipe Exchangers....................................................................103 7.2 Tank Heaters.......................................................................................105 7.3 Line Heaters........................................................................................106 7.4 Overall Heat Transfer Rate Using Longitudinal-Fin Tubes..............107 Chapter 8 Plate Exchangers 109 8.1 Construction Features........................................................................109 8.2 Plate Exchangers versus Shell-and-Tube and Double-Pipe Exchangers..........................................................................................109 8.3 Advantages and Disadvantages of Plate Exchangers........................114 8.4 Planning Ahead...................................................................................115 8.5 Cost Observation.................................................................................116 8.6 A Seasonal Application.......................................................................116 Chapter 9 Comparing Exchanger Types 119 9.1 Air Cooler Header Limits...................................................................119 9.2 Limitations in the Selection of Finned Surface................................120 Chapter 10 Fouling Factor Considerations 123 10.1 Plant Conditions...............................................................................123 10.2 Fouling Effect on Various Exchanger Designs................................125 10.3 Dealing with the Consequences ......................................................130 Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use Contents • ix 10.4 Ways of Minimizing the Effect of Fouling......................................130 10.5 Accounting for Fouling When Selecting an Exchanger..................131 Chapter 11 Manifolds and Headers 133 11.1 Selecting Manifolds..........................................................................133 11.2 Air Cooler Headers and Their Limitations......................................135 11.3 Header Nozzle Locations and Quarter Points.................................136 11.4 Lube Oil Cooler Header Design.......................................................137 11.5 Four Liquid Coolers in Parallel........................................................138 Chapter 12 Freezing 141 12.1 Antifreeze..........................................................................................141 12.2 Draining.............................................................................................142 12.3 Heating Air or Water.........................................................................142 12.4 Air Recirculation in Duct Systems...................................................142 12.5 Electric Heaters.................................................................................143 12.6 Hot Water and Steam Coils..............................................................144 12.7 Other Causes of Freezing, and Other Precautions..........................144 Chapter 13 The Iterative Process of Exchanger Selection 145 13.1 Shell-and-Tube Units........................................................................147 13.2 Air Coolers.........................................................................................149 13.3 Double-Pipe Exchangers..................................................................152 13.4 Plate Exchangers...............................................................................155 Chapter 14 Techniques to Reduce the Size of an Exchanger 157 14.1 Cooling with Hydrogen Gas.............................................................157 14.2 Lowfins..............................................................................................158 14.3 Internally and Externally Finned Tubes..........................................159 14.4 Turbulators........................................................................................161 14.5 Automatic Brush Cleaners................................................................164 14.6 Small-Diameter Tubes......................................................................166 14.7 Advantages of Plate Exchangers over Shell-and-Tube Units..........166 14.8 Designs That Use Fewer Finned Tubes per Layer and More Layers...............................................................................166 Chapter 15 Techniques to Reduce Exchanger or System Cost 169 15.1 Quantity of Refrigerant in System...................................................169 15.2 Case Study: Quench Oil Cooler........................................................170 15.3 Air-Cooled Furfural Cooler Selection..............................................172 Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use x • Contents 15.4 Code and Noncode Units..................................................................173 15.5 Tubing................................................................................................175 15.6 Shop Assembly..................................................................................176 15.7 Rapid Delivery...................................................................................177 15.8 Energy................................................................................................178 15.9 Material and Construction Considerations.....................................178 Chapter 16 Adding Surface While Minimizing Downtime 183 16.1 Add More Plates in Plate Exchangers..............................................183 16.2 Change Fin Material.........................................................................183 16.3 Add a Precooler in the Makeup Air Line.........................................184 16.4 Add Double-Pipe Units to a Bank of Exchangers............................185 16.5 Replace Bundles with Smaller-Diameter or Lowfin Tubes.............185 16.6 Air Coolers.........................................................................................186 16.7 Insulation..........................................................................................186 Chapter 17 Features That Should Make Selections Unacceptable 187 17.1 Face Velocity (Coil) and Air Velocity (Duct)....................................187 17.2 Water Velocity Limits.......................................................................188 17.3 Noise..................................................................................................189 17.4 Stacking Units...................................................................................190 17.5 Conserving Energy............................................................................191 17.6 Dimensional Limits..........................................................................193 17.7 Liquid Flow across Fins...................................................................193 Chapter 18 The Significance of Metal Temperature 195 18.1 Significance of Tube-Wall Temperature in Sizing an Exchanger....195 18.2 Condenser Driving Force................................................................198 18.3 Heating with Desuperheated Steam..............................................198 18.4 Bulk Viscosity and Tube-Wall Viscosity.........................................199 18.5 Changing Metallurgy.......................................................................199 18.6 Subcooling.......................................................................................199 18.7 Product Temperature Too High......................................................199 18.8 Reboilers..........................................................................................201 18.9 Thermal Expansion in U-Tube Exchangers...................................201 18.10 Radiant Energy Affecting a Roof or Canopy.................................201 18.11 Tank Shell........................................................................................202 18.12 Cables and Circuit Breakers...........................................................202 Downloaded From: http://ebooks.asmedigitalcollection.asme.org/ on 01/05/2016 Terms of Use: http://www.asme.org/about-asme/terms-of-use

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Sharing his professional experience of selecting heat exchangers for commercial installations, particularly in terms of surface, Nee discusses concepts such as good fluid distribution, operation, maintenance, construction, shipping, handling, and cost
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