Handbook of Thermal Management Systems: e-Mobility and Other Energy Applications is a comprehensive reference on the thermal management of key renewable energy sources and other electronic components. With an emphasis on practical applications, the book addresses thermal management systems of batteries, fuel cells, solar panels, electric motors, as well as a range of other electronic devices that are crucial for the development of sustainable transport systems. Chapters provide a basic understanding of the thermodynamics behind the development of a thermal management system, update on Batteries, Fuel Cells, Solar Panels, and Other Electronics, provide a detailed description of components, and discuss fundamentals.
Dedicated chapters then systematically examine the heating, cooling, and phase changes of each system, supported by numerical analyses, simulations and experimental data. These chapters include discussion of the latest technologies and methods and practical guidance on their application in real-world system-level projects, as well as case studies from engineering systems that are currently in operation. Finally, next-generation technologies and methods are discussed and considered.
Key Features
- Presents a comprehensive overview of thermal management systems for modern electronic technologies related to energy production, storage and sustainable transportation
- Addresses the main bottlenecks in the technology development for future green and sustainable transportation systems
- Focuses on the practical aspects and implementation of thermal management systems through industrial case studies, real-world examples, and solutions to key problems
1. Basics of Heat Transfer: Conduction
2. Basics of Heat Transfer: Convection
3. Basics of Heat Transfer: Heat Exchanger
4. Introduction to battery systems
5. Redox Flow Batteries membranes: overview and advances
6. Need of Battery Thermal Management System
7. Battery thermal modelling: models and prospects
8. Battery Thermal Modelling and Effective Cooling.heating Methods
9. Evaluation of heat generation and application in liquid cooling of Li-ion battery packs
10. Battery Thermal Management Through Simulation and Experiment: Air Cooling and Enhancement
11. Battery thermal management through simulation and experiment (liquid cooling.heating)
12. Simulations of 3D Inhomogeneous Temperature Distributions in Li-Ion Pouch Cells with Passive Thermal Management
13. A Novel Cooling Strategy for Lithium-Ion Battery Thermal Management with Phase Change Material
14. Passive Thermal Management Systems for e-mobility using PCM composites
15. Comparison of Air, Liquid and Phase Change Material for Battery Thermal Management
16. Fuel Cells Basics and Types
17. Fuel Cell Technology – Overview and Aspects of System Integration Science
18. Recent advancements and prospects of thermal management strategies in polymer electrolyte membrane Fuel cells (PEMFC)
19. Thermal stress modelling of solid oxide fuel cell stacks based on multi-physics numerical method
20. Thermal modelling and performance assessment of a PEM fuel cell
21. Air cooled fuel cells: simulation and experiments
22. Water cooled fuel cell: simulation and experiments
23. Liquid-cooling PEM fuel cell thermal management: Fundamental configuration, numerical simulation, control algorithm and experimental verification
24. Futuristic methods of fuel cell cooling
25. Introduction to Solar Panels
26. Cooling technologies for efficiency enhancement of solar PV panels: A review
27. Enhancing the Efficiency of Solar Photovoltaic Systems by Using Liquid cooling Techniques
28.Liquid-based solar panel cooling and PV.T systems
29. Improvement of solar panel performance using phase change material
30. Thermal management of PV Panels for Enhanced performance using PCM
31. Solar panel cooling using hybrid cooling systems
32. Hybrid cooling systems for enhancing the electrical performance of solar photovoltaic (PV) panels
33. The effect of thermal treatments on photovoltaic module Recycling
34. Review of Phase change materials
35. Strategies for Thermal management of electronics: Design, Development, and Application
36. Futuristic methods of electronics cooling
37. Experimental and Numerical Study of PCM Based Heat Sink for Thermal Management Electronic Chips
38. Mechanism of flow boiling in microchannels and structure optimization of heat changers used in pumped two-phase cooling system for data center cooling
39. Waste-heat driven Stirling engine systems: Conception and Parameters
40. Thermal and catalytic pyrolysis of date palm stones: Production, characterization of pyrolytic oil and study of performance and emission characteristics in CI engine
41. Experimental Investigation of Performance and Exhaust Emissions of Pyrolytic Olive Pomaces biofuels blends without and with additives fuelled Internal Combustion Engine
42. Experimental and multi-scale numerical study of air-flue gas heat exchanger in a biomass boiler
