Waste Heat Recovery, Its Utilization and Performance Assessment
Fundamentals and Application
- 1st Edition - August 1, 2025
- Editors: Sudipta De, Subha Mondal
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 3 1 5 7 6 - 3
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 3 1 5 7 7 - 0
Waste Heat Recovery, Its Utilization and Performance Assessment: Fundamentals and Applications presents a variety of contemporary waste-heat applications designed for use as a guid… Read more
Purchase options
Institutional subscription on ScienceDirect
Request a sales quoteWaste Heat Recovery, Its Utilization and Performance Assessment: Fundamentals and Applications presents a variety of contemporary waste-heat applications designed for use as a guide to identify, utilize, and assess the performance of otherwise rejected waste heat sources in support of energy efficiency, affordable energy, and a reduced carbon footprint. This reference identifies feasible waste heat recovery opportunities from various sectors, including domestic, commercial, and industrial sources. Researchers, professors, and students in the field of thermal engineering will find this an excellent reference to understand waste heat recovery systems, including sources, recovery, conversion technologies, feasibility assessments, case studies, and more.
- Identifies different sources of recoverable waste heat
- Develops suitable waste heat recovery technologies for a variety of domestic, commercial, and industrial applications
- Assesses the techno-economic feasibility of waste-heat driven systems
- Supports sustainability by leveraging waste heat as a source of renewable heat energy
Researchers, professors, and students in the field of thermal engineering
1. An Overview of Waste Heat Recovery Equipment and Technologies: Fundamentals & Design Aspects
2. Industrial Waste Heat Recovery: Opportunity and Challenges
3. Criteria for Selecting Waste Heat Recovery System in a Step-by-step Methodology
4. Waste Heat Recovery through Organic Rankine cycle: System Layout and Working Fluid Selection
5. Application of CO2 Based Power Cycles in Waste Heat Recover
6. Application Kalina Cycles for Waste Heat Recovery
7. Application of Thermo-electric Generator (TEG) in Waste Heat Recovery
8. Waste Heat Recovery for District Heating
9. Desalination Technologies for Waste Heat Recovery
10. Waste Heat-Driven Cogeneration / Trigeneration Technologies
11. Heat Recovery Steam Generator (HRSG) for Gas Turbine Waste Heat Recovery
12. Technologies to Recover Waste Heat from Abandoned Oil / Gas Well
13. Application of Pinch Analysis in Waste Heat Recovery
14. Waste Heat Recovery from Fuel Cell
15. Waste Heat Recovery from IC Engines
16. Application of Phase Change Material/Battery in Waste Heat Recovery
17. Enhanced Waste Heat Recovery Using Nano Fluid
18. Economic and Environmental Assessment of Waste Heat Recovery Systems: Methodology and Case Study
2. Industrial Waste Heat Recovery: Opportunity and Challenges
3. Criteria for Selecting Waste Heat Recovery System in a Step-by-step Methodology
4. Waste Heat Recovery through Organic Rankine cycle: System Layout and Working Fluid Selection
5. Application of CO2 Based Power Cycles in Waste Heat Recover
6. Application Kalina Cycles for Waste Heat Recovery
7. Application of Thermo-electric Generator (TEG) in Waste Heat Recovery
8. Waste Heat Recovery for District Heating
9. Desalination Technologies for Waste Heat Recovery
10. Waste Heat-Driven Cogeneration / Trigeneration Technologies
11. Heat Recovery Steam Generator (HRSG) for Gas Turbine Waste Heat Recovery
12. Technologies to Recover Waste Heat from Abandoned Oil / Gas Well
13. Application of Pinch Analysis in Waste Heat Recovery
14. Waste Heat Recovery from Fuel Cell
15. Waste Heat Recovery from IC Engines
16. Application of Phase Change Material/Battery in Waste Heat Recovery
17. Enhanced Waste Heat Recovery Using Nano Fluid
18. Economic and Environmental Assessment of Waste Heat Recovery Systems: Methodology and Case Study
- No. of pages: 500
- Language: English
- Edition: 1
- Published: August 1, 2025
- Imprint: Elsevier
- Paperback ISBN: 9780443315763
- eBook ISBN: 9780443315770
SD
Sudipta De
Sudipta De is active in the field of sustainable energy, including energy conservation and waste heat recovery. He was a guest researcher for the Department of Energy Sciences at Lund University, in Sweden, for more than one year. He is currently a professor at the Mechanical Engineering Department, Jadavpur University, in India. He was nominated senior scientist by the Indian National Science Academy (INSA), New Delhi to Technical University of Munich, Germany in the field of sustainable energy under international bilateral exchange program of the Academy. Dr. De has published several international journal papers and more than a dozen international books/invited chapters.
Affiliations and expertise
Mechanical Engineering Department, Jadavpur University, IndiaSM
Subha Mondal
Subha Mondal is an assistant professor at the Department of Mechanical Engineering, Aliah University, in India. Dr. Mondal’s research focuses specifically on waste heat recovery, including that being used in innovative power and refrigeration cycles, and low temperature geothermal energy technologies. He has published several high impact factor journal papers with good citations and a few book chapters in edited volumes.
Affiliations and expertise
Mechanical Engineering Department, Aliah University, India