
Thermal Energy Storage in Porous Media
Design and Applications
- Publisher's listprice EUR 160.00
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- Discounted price 54 298 Ft (51 712 Ft + 5% VAT)
67 872 Ft
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Product details:
- Publisher Elsevier
- Date of Publication 1 June 2025
- ISBN 9780443160967
- Binding Paperback
- No. of pages250 pages
- Size 228x152 mm
- Weight 450 g
- Language English 700
Categories
Long description:
Thermal Energy Storage in Porous Media: Design and Applications introduces the new design concepts and operation strategies for the core part of heat and mass transfer in thermal energy storage tanks. With a strong focus on design, operation and optimization, the book presents the latest advances in thermal energy storage. Opening with an introduction to latent heat thermal storage, the book then discusses porous media enhanced thermal storage classifications, methods and characterizations. Subsequent topics include energy charging/discharging system design, numerical simulation models and verification, and an analysis of various melting/solidification laws.
Finishing with a detailed presentation of applications and containing case studies and real-world examples throughout, this is an essential read for graduate students, researchers and engineers interested in thermal engineering, energy systems, and renewable energy.
Table of Contents:
1. An introduction to latent heat thermal storage
2. Porous media enhanced thermal storage
3. Energy charging/discharging system design and experimental results on a composite
4. Numerical simulation model and verification
5. Melting/solidification law of axial-gradient structure in a vertical thermal storage tank
6. Melting/solidification law of radial-gradient structure in a vertical thermal storage tank
7. Melting/solidification law of cross-gradient structure in a vertical thermal storage tank
8. Melting/solidification law of radial-gradient structure in a horizontal thermal storage tank
9. Applications of metal foam enhanced thermal energy storage for district heating

Thermal Energy Storage in Porous Media: Design and Applications
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