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Waste Heat Recovery in Process Industries

ISBN: 978-3-527-34856-5

May 2022

288 pages

Description

Explore modern waste heat recovery technology across a variety of industries  

In Waste Heat Recovery in Process Industries, esteemed thermal engineer Hussam Jouhara delivers an organized and comprehensive exploration of waste heat recovery systems with a focus on industrial applications in different temperature ranges. The author describes various waste heat recovery systems, like heat exchangers, waste heat boilers, air preheaters, direct electrical conversion devices, and thermal storage.  

The book also offers discussions of the technologies and applications relevant to different temperature ranges present in industrial settings along with revealing case studies from various industries. Waste Heat Recovery in Process Industries examines a variety of industries, from steel to ceramics, chemicals, and food, and how plants operating in these sectors can use waste heat to improve their energy efficiency, reduce energy costs, and minimize their carbon footprint. 

The book also offers: 

  • A thorough introduction to waste heat recovery systems, including recuperative and regenerative burners, heat exchangers, waste heat boilers, air preheaters, and heat pumps 
  • Comprehensive explorations of low temperature applications, below 100°C, including advantages and drawbacks, as well as illustrative case studies 
  • Practical discussions of medium temperature applications, between 100°C and 400°C, including case studies 
  • In-depth examination of high temperature applications, above 400°C, including several case studies  

Perfect for chemical, mechanical, process, and power engineers, Waste Heat Recovery in Process Industries is also an ideal resource for professionals working in the chemical, metal processing, pharmaceutical, and food industries. 

About the Author

Hussam Jouhara is Full Professor of Thermal Engineering at Brunel University in London, UK. His research and professional foci are on the development of heat pipe-based heat exchangers with successful implementation in a multitude of temperature ranges, including cryogenic and high-temperature industrial waste heat recovery.