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El. knyga: Thermal Energy Storage with Phase Change Materials

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  • Formatas: 464 pages
  • Išleidimo metai: 25-Jul-2021
  • Leidėjas: CRC Press
  • Kalba: eng
  • ISBN-13: 9781000406641
Kitos knygos pagal šią temą:
Thermal Energy Storage with Phase Change MaterialsDidesnis paveikslėlis
  • Formatas: 464 pages
  • Išleidimo metai: 25-Jul-2021
  • Leidėjas: CRC Press
  • Kalba: eng
  • ISBN-13: 9781000406641
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This book focuses on latent heat storage, which is one of the most efficient ways of storing thermal energy. Unlike the sensible heat storage method, latent heat storage method provides much higher storage density, with a smaller difference between storing and releasing temperatures.

This book focuses on latent heat storage, which is one of the most efficient ways of storing thermal energy. Unlike the sensible heat storage method, the latent heat storage method provides much higher storage density with a smaller difference between storing and releasing temperatures.

Thermal Energy Storage with Phase Change Materials

is structured into four chapters that cover many aspects of thermal energy storage and their practical applications. Chapter 1 reviews selection, performance, and applications of phase change materials. Chapter 2 investigates mathematical analyses of phase change processes. Chapters 3 and 4 present passive and active applications for energy saving, peak load shifting, and price-based control heating using phase change materials.

These chapters explore the hot topic of energy saving in an overarching way, and so they are relevant to all courses. This book is an ideal research reference for students at the postgraduate level. It also serves as a useful reference for electrical, mechanical, and chemical engineers and students throughout their work.

FEATURES

  • Explains the technical principles of thermal energy storage, including materials and applications in different classifications

  • Provides fundamental calculations of heat transfer with phase change

  • Discusses the benefits and limitations of different types of phase change materials (PCM) in both micro- and macroencapsulations

  • Reviews the mechanisms and applications of available thermal energy storage systems

  • Introduces innovative solutions in hot and cold storage applications

1. Phase Change Material Selection and Performance 1.1 A Review on Phase
Change Energy Storage: Materials and Applications 1.2 Fire Retardants for
Phase Change Materials 1.3 Long-Term Thermal Stability of Organic PCMs 1.4 A
Novel Calcium Chloride Hexahydrate-Based Deep Eutectic Solvent as a Phase
Change Material
2. Mathematical Analysis of Phase Change Processes 2.1 A New
Approach in the Calculation of Heat Transfer with Phase Change 2.2 Effect of
Natural Convection on the Process of Melting and Solidification of Paraffin
Wax 2.3 The Role of Natural Convection during Melting and Solidification of
PCM in a Vertical Cylinder 2.4 Thermal Performance of a Heat Storage Module
Using PCMs with Different Melting Temperatures: Mathematical Modeling 2.5
Performance of Direct Contact Latent Heat Storage Units with Two Hydrated
Salts
3. Energy Saving, Peak Load Shifting and Price-Based Control Heating:
Passive Applications 3.1 A Review on Energy Conservation in Building
Applications with Thermal Storage by Latent Heat Using Phase Change Materials
3.2 Impact of Energy Storage in Buildings on Electricity Demand Side
Management 3.3 Experimental Validation of a Methodology to Assess PCM
Effectiveness in Cooling Building Envelopes Passively 3.4 Peak Load Shifting
with Energy Storage and Price-Based Control System 3.5 Application of Weather
Forecast in Conjunction with Price-Based Method for PCM Solar Passive
Buildings An Experimental Study 3.6 Application of PCM Energy Storage in
Combination with Night Ventilation for Space Cooling 3.7 Application of PCM
Underoor Heating in Combination with PCM Wallboards for Space Heating Using
Price-Based Control System 3.8 Analysis of Energy Requirements versus Comfort
Levels for the Integration of Phase Change Materials in Buildings 3.9
Benefits of PCM Underfloor Heating with PCM Wallboards for Space Heating in
Winter
4. Energy-Saving, Peak Load Shifting and Price-Based Control Heating
and Cooling: Active Applications 4.1 Application of an Active PCM Storage
System into a Building for Heating/Cooling Load Reduction 4.2 Peak Load
Shifting Using a Price-Based Control in PCM-Enhanced Buildings 4.3 Model
Predictive Control Strategy Applied to Different Types of Building for Space
Heating 4.4 A Comparison between Passive and Active PCM Systems Applied to
Buildings
Professor Mohammed Mehdi Farid is a full professor (Personal Chair) at the University of Auckland, New Zealand.

Dr Amar Auckaili is a professional teaching fellow at the University of Auckland, New Zealand.

Dr. Gohar Gholambozanjani is a research assistant at the University of Auckland, New Zealand.
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