Solid-Liquid Thermal Energy Storage
portes grátis
Solid-Liquid Thermal Energy Storage
Modeling and Applications
Mobedi, Moghtada; Tao, Wen-Quan; Hooman, Kamel
Taylor & Francis Ltd
06/2022
346
Dura
Inglês
9781032100180
15 a 20 dias
594
Descrição não disponível.
Chapter 1 An Introduction to Solid-Liquid Thermal Energy Storage Systems. Chapter 2 Solid-Liquid Phase Change Materials for Energy Storage: Opportunities and Challenges. Chapter 3 Experimental Techniques and Challenges in Evaluating the Performance of PCMs. Chapter 4 Design Criteria for Advanced Latent Heat Thermal Energy Storage Systems. Chapter 5 Multi-Scale Modeling in Solid-Liquid Phase Change Conjugate Heat Transfer for Thermal Energy Storage Applications. Chapter 6 Latent Heat of Fusion and Applications of Silicon-Metal Alloys. Chapter 7 Heat Transfer Augmentation of Latent Heat Thermal Storage Systems Employing Extended Surfaces and Heat Pipes. Chapter 8 Fin-Metal Foam Hybrid Structure for Enhancing Solid-Liquid Phase Change. Chapter 9 Micro- and Nano-Encapsulated PCM Fluids. Chapter 10 Structural Classification of PCM Heat Exchangers. Chapter 11 Cool Thermal Energy Storage: Water and Ice to Alternative Phase Change Materials. Chapter 12 Evolution of Melt Path in a Horizontal Shell and Tube Latent Heat Storage System for Concentrated Solar Power Plants. Chapter 13 Sensible and Latent Thermal Energy Storage in Parallel Channels. Chapter 14 Recent Progress of Phase Change Materials and a Novel Application to Cylindrical Lithium-Ion BatteryThermal Management. Chapter 15 Phase Change Material-Based Thermal Energy Storage for Cold Chain Applications - From Materials to Systems.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
solid/liquid phase change;Phase Change Materials (PCM);heat transfer enhancement in Solid/liquid Phase change;numerical methods in Solid/liquid phase change;phase change in space;phase change in heat exchangers;phase change;latent heat;nano-encapsulated phase change;Thermal Energy Storage;Composite PCMs;Latent Te;Layered PCM;Solid Liquid Phase Change;Phase Change Materials;Liquid PCM;LHTES;Latent Heat Te System;Thermal Conductivity Enhancer;Solid Liquid PCM;Heat Pipe;Te System;Tis Device;Tis Tank;Salt Hydrates;HTF Inlet Temperature;Phase Change Temperature;Metal Foams;Energy Density;Heat Transfer Enhancement Method;Heat Exchanger;Melt Front;MF;TMS
Chapter 1 An Introduction to Solid-Liquid Thermal Energy Storage Systems. Chapter 2 Solid-Liquid Phase Change Materials for Energy Storage: Opportunities and Challenges. Chapter 3 Experimental Techniques and Challenges in Evaluating the Performance of PCMs. Chapter 4 Design Criteria for Advanced Latent Heat Thermal Energy Storage Systems. Chapter 5 Multi-Scale Modeling in Solid-Liquid Phase Change Conjugate Heat Transfer for Thermal Energy Storage Applications. Chapter 6 Latent Heat of Fusion and Applications of Silicon-Metal Alloys. Chapter 7 Heat Transfer Augmentation of Latent Heat Thermal Storage Systems Employing Extended Surfaces and Heat Pipes. Chapter 8 Fin-Metal Foam Hybrid Structure for Enhancing Solid-Liquid Phase Change. Chapter 9 Micro- and Nano-Encapsulated PCM Fluids. Chapter 10 Structural Classification of PCM Heat Exchangers. Chapter 11 Cool Thermal Energy Storage: Water and Ice to Alternative Phase Change Materials. Chapter 12 Evolution of Melt Path in a Horizontal Shell and Tube Latent Heat Storage System for Concentrated Solar Power Plants. Chapter 13 Sensible and Latent Thermal Energy Storage in Parallel Channels. Chapter 14 Recent Progress of Phase Change Materials and a Novel Application to Cylindrical Lithium-Ion BatteryThermal Management. Chapter 15 Phase Change Material-Based Thermal Energy Storage for Cold Chain Applications - From Materials to Systems.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
solid/liquid phase change;Phase Change Materials (PCM);heat transfer enhancement in Solid/liquid Phase change;numerical methods in Solid/liquid phase change;phase change in space;phase change in heat exchangers;phase change;latent heat;nano-encapsulated phase change;Thermal Energy Storage;Composite PCMs;Latent Te;Layered PCM;Solid Liquid Phase Change;Phase Change Materials;Liquid PCM;LHTES;Latent Heat Te System;Thermal Conductivity Enhancer;Solid Liquid PCM;Heat Pipe;Te System;Tis Device;Tis Tank;Salt Hydrates;HTF Inlet Temperature;Phase Change Temperature;Metal Foams;Energy Density;Heat Transfer Enhancement Method;Heat Exchanger;Melt Front;MF;TMS