Thermal energy storage technologies for sustainability: systems design, assessment, and applications
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| Hauptverfasser: | , |
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| Format: | Buch |
| Sprache: | English |
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Amsterdam u.a.
Elsevier Academic Press
2014
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| Schlagworte: | |
| Online-Zugang: | Klappentext Inhaltsverzeichnis |
| Beschreibung: | XIV, 430 S. Ill., graph. Darst. |
| ISBN: | 9780124172913 |
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| adam_text | THERMAL ENERGY STORAGE «R
TECHNOLOGIES FOR SUSTAINABILITY
SYSTEMS DESIGN, ASSESSMENT AND APPLICATIONS
S. KALAISELVAM AND R. PARAMESHWARAN
Thermal Energy Storage Technologies for Sustainability is a broad-based overview describing state-
of-the-art technologies in sensible, latent, thermochemical, and seasonal thermal energy storage systems
and their applications across industries. Beginning with a discussion of the efficiency and conservation
advantages of balancing energy demand and energy production, the book goes on to describe current
technologies. Not stopping with description, the authors also discuss sustainable prospects, design, and
assessment, and end with applications of representative systems in use.
Key Features
• Describes how thermal energy storage helps bridge the gap between energy demand and supply
(particularly for fossil fuel-based systems and intermittent power sources like solar and wind
systems)
• Provides tables, illustrations, heat storage material properties, and comparative case studies that
show applications of thermal energy storage systems across industries
• Includes a chapter on the rapidly developing field of viable nanotechnology-based thermal energy
storage systems
About thè Authors
Dr. S. Kalaiselvam is thè Head of the Department of Applied Science and Technology and an Associate
Professor of Mechanical Engineering at Anna University, Chennai.
Dr. R. Parameshwaran is a Research Fellow in the Department of Mechanical Engineering Centre for
Nanoscience and Technology at Anna University, Chennai.
Contents,-!
Acknowledgments.........................................................................xi
Preface...............................................................................xiii
CHAPTER 1 Energy and Energy Management...................................................1
1.1 Introduction..............................................................]
1.2 Energy Resources, Energy Sources, and Energy Production..................1
1.3 Global Energy Demand and Consumption.....................................5
1.4 Need for the Energy Efficiency, Energy Conservation, and Management.....11
1.5 Concise Remarks.........................................................18
References..............................................................19
CHAPTER 2 Energy Storage................................................................21
2.1 Introduction............................................................21
2.2 Significance of Energy Storage..........................................21
2.3 TVpes of Energy Storage.................................................22
2.4 Energy Storage by Mechanical Medium.....................................23
2.4.1 Flywheels (Kinetic Energy Storage)................................23
2.4.2 Pumped Hydroelectric Storage (Potential Energy Storage)...........25
2.4.3 Compressed Air Energy Storage (Potential Energy Storage)..........26
2.5 Energy Storage by Chemical Medium.......................................28
2.5.1 Electrochemical Energy Storage....................................28
2.6 Energy Storage by Electrical Medium.....................................31
2.6.1 Electrostatic Energy Storage......................................31
2.7 Energy Storage by Magnetic Medium.......................................33
2.7.1 Superconducting Magnetic Energy Storage...........................33
2.8 Energy Storage by Hydrogen Medium.......................................34
2.8.1 Hydrogen-Based Fuel Cells.........................................34
2.8.2 Solar Hydrogen Production.........................................35
2.9 Energy Storage by Biological Medium.....................................36
2.10 Thermal Energy Storage..................................................36
2.10.1 Low Temperature Thermal Storage..................................37
2.10.2 Medium and High Temperature Thermal Storage......................37
2.11 Technical Evaluation and Comparison of Energy Storage Technologies......38
2.12 Concise Remarks.........................................................52
References..............................................................52
V
vi Contents
CHAPTER 3 Thermal Energy Storage Technologies.............................................57
3.1 Introduction..............................................................57
3.2 Thermal Energy Storage....................................................57
3.2.1 Aspects of TES......................................................58
3.2.2 Need for TES........................................................59
3.2.3 Energy Redistribution Requirements..................................59
3.3 Types of TES Technologies.................................................60
3.3.1 Sensible TES........................................................60
3.3.2 Latent TES..........................................................60
3.3.3 Thermochemical Energy Storage.......................................61
3.4 Comparison of TES Technologies............................................62
3.5 Concise Remarks...........................................................64
References................................................................64
CHAPTER 4 Sensible Thermal Energy Storage.................................................65
4.1 Introduction..............................................................65
4.2 Sensible Heat Storage Materials...........................................65
4.2.1 Solid Storage Materials.............................................65
4.2.2 Liquid Storage Materials............................................66
4.3 Selection of Materials and Methodology....................................66
4.3.1 Short-Term Sensible Thermal Storage.................................67
4.3.2 Long-Term Sensible Thermal Storage..................................68
4.4 Properties of Sensible Heat Storage Materials.............................69
4.5 STES Technologies.........................................................69
4.5.1 Storage Tanks Using Water...........................................69
4.5.2 Rock Bed Thermal Storage............................................71
4.5.3 Solar Pond/Lake Thermal Storage.....................................72
4.5.4 Building Structure Thermal Storage................................ 73
4.5.5 Passive Solar Heating Storage.......................................75
4.5.6 Active Solar Heating Storage........................................76
4.6 High Temperature Sensible Thermal Storage.................................77
4.7 Concise Remarks...........................................................81
References................................................................81
CHAPTER 5 Latent Thermal Energy Storage...................................................83
5.1 Introduction..............................................................83
5.2 Physics of LTES...........................................................83
5.3 Types of LTES.............................................................85
5.4 Properties of Latent Heat Storage Materials...............................86
5.5 Encapsulation Techniques of LTES (PCM) Materials..........................86
5.5.1 Direct Impregnation Method..........................................87
Contents vii
5.5.2 Microencapsulation Method........................................87
5.5.3 Shape Stabilization of the PCM...................................88
5.6 Performance Assessment of LTES System in Buildings.....................89
5.7 Passive LTES Systems...................................................94
5.7.1 PCM Impregnated Structures into Building Fabric Components......94
5.7.2 PCM Impregnated into Building Fabrics...........................97
5.7.3 PCM Integrated into Building Glazing Structures.................100
5.7.4 PCM Color Coatings..............................................101
5.8 Active LTES Systems...................................................102
5.8.1 Free Cooling with the PCM TES...................................102
5.8.2 Comfort Cooling with the PCM TES................................108
5.8.3 Ice-Cool Thermal Energy Storage.................................111
5.8.4 Chilled Water-PCM cool TES......................................115
5.9 Merits and Limitations................................................118
5.9.1 Merits of LTES Materials........................................118
5.9.2 Limitations of LTES Materials...................................122
5.9.3 Merits of LTES Systems..........................................122
5.9.4 Limitations of LTES Systems.....................................123
5.10 Summary...............................................................123
References.......................................................... 124
CHAPTER 6 Thermochemical Energy Storage...............................................127
6.1 Introduction...........................................................127
6.2 Phenomena of Thermochemical Energy Storage............................127
6.3 Thermochemical Energy Storage Principles and Materials................128
6.4 Thermochemical Energy Storage Systems.................................130
6.4.1 Open Adsorption Energy Storage System...........................131
6.4.2 Closed Adsorption Energy Storage System.........................134
6.4.3 Closed Absorption Energy Storage System.........................135
6.4.4 Solid/Gas Thermochemical Energy Storage System..................136
6.4.5 Thermochemical Accumulator Energy Storage System................137
6.4.6 Floor Heating System using Thermochemical Energy Storage........138
6.4.7 Thermochemical Energy Storage for Building Heating Applications.140
6.5 Concise Remarks.......................................................142
References............................................................144
CHAPTER 7 Seasonal Thermal Energy Storage.............................................145
7.1 Introduction..........................................................145
7.2 Seasonal (Source) TES Technologies....................................145
7.2.1 Aquifer Thermal Storage.........................................146
7.2.2 Borehole Thermal Storage........................................150
viii Contents
7.2.3 Cavern Thermal Storage............................................152
7.2.4 Earth-to- Air Thermal Storage.....................................155
7.2.5 Energy Piles Thermal Storage......................................156
7.2.6 Sea Water Thermal Storage.........................................156
7.2.7 Rock Thermal Storage..............................................157
7.2.8 Roof Pond Thermal Storage.........................................157
7.3 Concise Remarks.........................................................158
References..............................................................161
CHAPTER 8 Nanotechnology in Thermal Energy Storage......................................163
8.1 Introduction............................................................163
8.2 Nanostructured Materials................................................163
8.2.1 Preparation and Characterization of Nanomaterials.................163
8.2.2 Hybrid Nanomaterials..............................................167
8.3 Nanomaterials Embedded Latent Heat Storage Materials....................174
8.3.1 Evaluation of Thermal Storage Properties..........................175
8.4 Merits And Challenges...................................................189
8.5 Concise Remarks........................................................191
References..............................................................192
CHAPTER 9 Sustainable Thermal Energy Storage............................................203
9.1 Introduction............................................................203
9.2 Sustainable Thermal Storage Systems.....................................203
9.2.1 Low Energy Thermal Storage........................................203
9.2.2 Low Carbon Thermal Storage........................................204
9.2.3 Geothermal Energy Storage.........................................216
9.2.4 Wind-Thermal-Cold Energy Storage..................................222
9.2.5 Hybrid TES........................................................223
9.2.6 CHP Thermal Storage...............................................223
9.3 Leadership in Energy and Environmental Design (LEED) and Sustainability
Prospects............................................................. 227
9.4 Concise Remarks.........................................................232
References............................................................ 233
CHAPTER 10 Thermal Energy Storage Systems Design........................................237
10.1 Introduction............................................................237
10.2 Sensible Heat Storage Systems...........................................237
10.3 Latent Heat Storage Systems.............................................238
10.3.1 Sizing of ITES System............................................238
10.3.2 Sizing of Chilled Water Packed Bed LTES System...................239
10.4 Design Examples.........................................................241
10.4.1 Long-Term Thermal Storage Option.................................241
10.4.2 Short-Term Thermal Storage Option................................242
Contents ix
10.4.3 Short-Term Thermal Storage Option in Piping Systems.............242
10.4.4 Heating Thermal Storage Option with Pressurized Water Systems...243
10.4.5 TES Option with Waste Heat Recovery..............................244
10.5 Concise Remarks.........................................................244
Further Reading.........................................................245
CHAPTER 11 Review on the Modeling and Simulation of Thermal
Energy Storage Systems..................................................247
11.1 Introduction............................................................247
11.2 Analytical/Numerical Modeling and Simulation............................247
11.2.1 Latent Thermal Energy Storage....................................247
11.3 Configurations-Based Model Collections..................................256
11.4 Modeling and Simulation Analysis........................................261
11.4.1 Numerical Solution and Validation................................261
11.4.2 Materials Selection and Configuration............................266
11.4.3 Economic Perspectives............................................266
11.5 Concise Remarks.........................................................266
References..............................................................267
CHAPTER 12 Assessment of Thermal Energy Storage Systems.................................279
12.1 Introduction............................................................279
12.2 Evaluation of Thermal Storage Properties................................279
12.3 Energy and Exergy Concepts..............................................281
12.3.1 Distinction between Energy and Exergy............................281
12.3.2 Quality Concepts.................................................285
12.3.3 Exergy in Performance Assessment of Thermal Storage Systems......286
12.3.4 Exergy and the Environment.......................................288
12.4 Concise Remarks.........................................................307
References..............................................................307
CHAPTER 13 Control and Optimization of Thermal Energy Storage Systems.................311
13.1 Introduction............................................................311
13.2 Control Systems and Methodologies.......................................311
13.2.1 Types of Control Methodologies...................................313
13.2.2 Control Methodology of Thermal Storage Systems...................316
13.3 Optimization of Thermal Storage Systems.................................326
13.3.1 Thermoeconomic Optimization......................................330
13.3.2 Multiobjective Optimization......................................336
13.4 Concise Remarks.........................................................342
References..............................................................343
x Contents
CHAPTER 14 Economic and Societal Prospects of Thermal Energy
Storage Technologies...................................................347
14.1 Introduction...........................................................347
14.2 Commissioning of Thermal Energy Storage (TES) Systems.................347
14.2.1 Procedure for Installation of Thermal Storage Systems...........347
14.3 Cost Analysis and Economic Feasibility................................349
14.3.1 LTES System.....................................................349
14.3.2 Seasonal TES System.............................................352
14.4 Societal Implications of TES Systems..................................356
14.5 Concise Remarks.......................................................357
References.............................................................357
CHAPTER 15 Applications of Thermal Energy Storage Systems.............................359
15.1 Active and Passive Systems.............................................359
15.2 Carbon՝Free Thermal Storage Systems...................................359
15.3 Low Energy Building Design............................................362
15.4 Scope for Futuristic Developments.....................................364
References.............................................................365
Appendix I Units and Conversions Factors..............................................367
Appendix II Thermal Properties of Various Heat Storage Materials...............375
Appendix III Rules of Thumb for Thermal Energy Storage Systems Design...........397
Sources................................................................398
Appendix IV Parametric and Cost Comparison of Thermal Storage
Technologies...........................................................399
Appendix V Summary of Thermal Energy Storage Systems Installation.....................401
Abbreviations.........................................................................405
Glossary............................................................................ 409
List of Specific Websites.............................................................413
Index.................................................................................415
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| indexdate | 2024-08-01T10:45:15Z |
| institution | BVB |
| isbn | 9780124172913 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027671360 |
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| publisher | Elsevier Academic Press |
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| spellingShingle | Kalaiselvam, S. Parameshwaran, R. Thermal energy storage technologies for sustainability systems design, assessment, and applications Wärmespeicher (DE-588)4064204-5 gnd Nachhaltigkeit (DE-588)4326464-5 gnd Wärmespeicherung (DE-588)4188871-6 gnd |
| subject_GND | (DE-588)4064204-5 (DE-588)4326464-5 (DE-588)4188871-6 |
| title | Thermal energy storage technologies for sustainability systems design, assessment, and applications |
| title_auth | Thermal energy storage technologies for sustainability systems design, assessment, and applications |
| title_exact_search | Thermal energy storage technologies for sustainability systems design, assessment, and applications |
| title_full | Thermal energy storage technologies for sustainability systems design, assessment, and applications by S. Kalaiselvam ; R. Parameshwaran |
| title_fullStr | Thermal energy storage technologies for sustainability systems design, assessment, and applications by S. Kalaiselvam ; R. Parameshwaran |
| title_full_unstemmed | Thermal energy storage technologies for sustainability systems design, assessment, and applications by S. Kalaiselvam ; R. Parameshwaran |
| title_short | Thermal energy storage technologies for sustainability |
| title_sort | thermal energy storage technologies for sustainability systems design assessment and applications |
| title_sub | systems design, assessment, and applications |
| topic | Wärmespeicher (DE-588)4064204-5 gnd Nachhaltigkeit (DE-588)4326464-5 gnd Wärmespeicherung (DE-588)4188871-6 gnd |
| topic_facet | Wärmespeicher Nachhaltigkeit Wärmespeicherung |
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