Geothermal heat pump and heat engine systems: theory and practice
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
[New York]
ASME Press
2016
|
| Schriftenreihe: | Wiley-ASME Press series in mechanical engineering
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Titel der monografischen Reihe im Vorwort genannt |
| Beschreibung: | xvii, 473 Seiten Illustrationen, Diagramme |
| ISBN: | 9781118961940 |
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Datensatz im Suchindex
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| adam_text | Contents
Series Preface xiv
Preface xv
About the Companion Website xviii
1 Geothermal Energy Project Considerations 1
1.1 Overview 1
1.2 Renewable/Clean Energy System Analysis 1
1.3 Elements of Renewable/Clean Energy Systems 4
1.4 Geothermal Energy Utilization and Resource Temperature 5
1.5 Geothermal Energy Project History and Development 5
1.5.1 Geothermal Power Plants 1
1.5.2 Direct Uses of Geothermal Energy 10
1.5.3 Geothermal Heat Pumps 13
1.6 Chapter Summary 18
Discussion Questions and Exercise Problems 19
Part I Geothermal Energy - Utilization and Resource Characterization 21
2 Geothermal Process Loads 23
2.1 Overview 23
2.2 Weather Data 24
2.3 Space Heating and Cooling Loads 26
2.3.1 Peak Design Loads 26
2.3.2 Monthly and Annual Loads 28
2.4 Hot Water Process Loads 38
2.5 Swimming Pool and Small Pond Heating Loads 40
2.6 Snow-Melting Loads 46
2.7 Chapter Summary 53
Discussion Questions and Exercise Problems 54
viü
Contents
3 Characterizing the Resource 55
3.1 Overview 55
3.2 Origin and Structure of the Earth 56
3.3 Geology and Drilling Basics for Energy Engineers 59
3.3.1 ‘Geology 101’ for Energy Engineers 59
3.3.2 Overview of Drilling Methods 61
3.4 Earth Temperature Regime and Global Heat Flows: Why is the Center
of the Earth Hot? 62
3.5 Shallow Earth Temperatures 64
3.6 The Geothermal Reservoir Concept 66
3.7 Geothermal Site Suitability Analysis 68
3.7.1 Groundwater Resources 69
3.7.2 Geoexchange Applications 75
3.8 Chapter Summary 79
Discussion Questions and Exercise Problems 80
Part II Harnessing the Resource 81
4 Groundwater Heat Exchange Systems 83
4.1 Overview 83
4.2 Why Groundwater? 84
4.3 Theoretical Considerations 85
4.3.1 Equations of Groundwater Flow 85
4.3.2 Well Hydraulics 93
4.3.3 Heat Transport in Groundwater 103
4.4 Practical Considerations 108
4.4.1 Equipment Needed 108
4.4.2 Groundwater Quality 122
4.5 Groundwater Heat Pump Systems 123
4.5.1 Small Residential Systems 123
4.5.2 Large Commercial Distributed Heat Pump Systems 124
4.5.3 System Energy Analysis and the Required Groundwater Flow Rate 125
4.5.4 Well Pump Control 130
4.5.5 Single Supply-Return Well Systems 132
4.6 Chapter Summary 134
Discussion Questions and Exercise Problems 135
5 Borehole Heat Exchangers 138
5.1 Overview of Borehole Heat Exchangers (BHEs) 138
5.2 What is a Borehole Heat Exchanger? 139
5.3 Brief Historical Overview of BHEs 140
5.4 Installation of BHEs 141
5.5 Thermal and Mathematical Considerations for BHEs 142
5.5.1 General BHE Thermal Considerations 142
5.5.2 Mathematical Models of Heat Transfer around BHEs 144
5.5.3 Detennining the BHE Fluid Temperature 149
Contents
ix
5.5.4 Fluctuating Thermal Loads 152
5.5.5 Effects of Groundwater Flow on BHEs 154
5.5.6 Mathematical Models of the Borehole Thermal Resistance 155
5.6 Thermal Response Testing 169
5.6.1 Field Methods 169
5.6.2 Analysis Methods of Field Test Data 170
5.7 Pressure Considerations for Deep Vertical Boreholes 175
5.8 Special Cases 176
5.8.1 Standing Column Wells Revisited 176
5.8.2 Heat Pipes 111
5.9 Chapter Summary 178
Discussion Questions and Exercise Problems 179
6 Multi-Borehole Heat Exchanger Arrays 181
6.1 Overview 181
6.1.1 Introduction 182
6.1.2 Vertical GHX Configurations 182
6.2 Vertical GHX Design Length Equation and Design Parameters 184
6.2.1 The Vertical GHX Design Length Equation 184
6.2.2 The Undisturbed Ground Temperature (Tg) 184
6.2.3 Soil/Rock Thermal Properties 185
6.2.4 The Ground Loads 186
6.2.5 The Average BHE Fluid Temperature (Tf) 194
6.2.6 The Ground Thermal Resistances 195
6.3 Vertical GHX Simulation 198
6.4 Hybrid Geothermal Heat Pump Systems 199
6.5 Modeling Vertical GHXs with Software Tools 200
6.5.1 Vertical GHX Modeling with Basic Load Input 201
6.5.2 Vertical GHX Modeling with Hourly or Monthly Load Input 206
6.6 Chapter Summary 216
Discussion Questions and Exercise Problems 217
7 Horizontal Ground Heat Exchangers 219
7.1 Overview 219
7.1.1 Horizontal GHX Configurations 220
7.2 Horizontal GHX Design Length Equation and Design Parameters 221
7.2.1 Mathematical Contrasts Between Vertical and Horizontal GHXs 221
7.2.2 The Horizontal GHX Design Length Equation 223
7.2.3 The Seasonal Ground Temperature (TgiWinter and Tg summen) 224
7.2.4 Ground Thermal Properties 224
7.2.5 The Ground Loads 225
7.2.6 The Average GHX Fluid Temperature (Tf) 226
7.2.7 The Trench Thermal Resistance (R t) 226
7.2.8 The Ground Thermal Resistances 230
7.3 Modeling Horizontal GHXs with Software Tools 232
7.4 Simulation of Horizontal GHXs 237
X
Contents
7.5 Earth Tubes 238
7.5.1 Introduction 23 8
7.5.2 Practical Considerations 238
7.5.3 Mathematical Considerations 239
7.5.4 Tube Analysis with Software Tools 241
7.6 Chapter Summary 244
Discussion Questions and Exercise Problems 244
8 Surface Water Heat Exchange Systems 246
8.1 Overview 246
8.2 Thermal Processes in Surface Water Bodies 247
8.2 J Governing Modes of Heat Transfer 247
8.2.2 Seasonal Dynamics 248
8.3 Open-Loop Systems 250
8.4 Closed-Loop Systems 251
8.4.1 Mathematical Models of Closed-Loop Heat Exchangers 252
8.4.2 Modeling Closed-Loop Surface Water Heat Pump Systems
with Software Tools 257
8.5 Chapter Summary 266
Discussion Questions and Exercise Problems 266
9 Opportunistic Heat Sources and Sinks 267
9.1 Overview 267
9.2 Use of Existing Water Wells 267
9.3 Heat Exchange With Building Foundations 268
9.3.1 Shallow Foundations and Basements 268
9.3.2 Deep Foundations 268
9.4 Utilization of Infrastructure from Other Energy Sectors 268
9.4.1 Underground Coal Fires 268
9.4.2 Abandoned Oil and Gas Wells 269
9.4.3 Water-Filled Abandoned Mines 270
9.5 Cascaded Loads and Combined Heat and Power (CHP) 271
9.6 Integrated Loads and Load Sharing with Heat Pumps 273
9.6.1 Swimming Pool Heating 273
9.6.2 Simultaneous Need for Hot and Chilled Liquids 274
9.6.3 Sewer Heat Recovery 275
9.6.4 District Energy Systems 275
9.7 Chapter Summary 278
Discussion Questions and Exercise Problems 279
10 Piping and Pumping Systems 280
10.1 Overview 280
10.2 The Fluid Mechanics of Internal Flows 281
10.2.1 The Fluid Power Equation 281
10.2.2 Pressure and Head 283
10.2.3 Dimensional Equations for Fluid Power 283
Contents
xi
10.2.4 Inlet-Outlet Pressure Changes 284
10.2.5 Pressure Loss Due to Friction 284
10.3 Pipe System Design 286
10.3.1 Initial Selection of Pipe/Duct Diameter 286
10.3.2 Parallel Flow Piping Arrangements 288
10.4 Configuring a Closed-Loop Ground Heat Exchanger 289
10.4.1 Laying Out the Pipe Network 289
10.4.2 Pipe Materials and Joining Methods 294
10.4.3 Manifolds in GHXs 295
10.4.4 Air and Dirt Management 296
10.5 Circulating Pumps 298
10.5.1 Pump Curves 299
10.5.2 System Curves 300
10.5.3 Pump Motor Work 302
10.5.4 Pump/Fan Affinity Laws 302
10.5.5 Energy-Efficient Pumping 303
10.6 Chapter Summary 305
Exercise Problems 305
Part III Geothermal Energy Conversion 307
11 Heat Pumps and Heat Engines: A Thermodynamic Overview 309
11.1 Overview 309
11.2 Fundamental Theory of Operation of Heat Pumps and Heat Engines 309
11.3 The Carnot Cycle 311
11.4 Real-World Considerations: Entropy and Exergy 312
11.5 Practical Heat Engine and Heat Pump Cycles 317
11.5.1 Practical Heat Engine Cycles 318
11.5.2 Practical Heat Pump Cycles 320
11.6 The Working Fluids: Refrigerants 320
11.7 Chapter Summary 322
Discussion Questions and Exercise Problems 323
12 Mechanical Vapor Compression Heat Pumps 324
12.1 Overview 324
12.2 The Ideal Vapor Compression Cycle 325
12.3 The Non-Ideal Vapor Compression Cycle 328
12.3.1 Principal Irreversibilities and Isentropic Efficiency 328
12.3.2 Engineering Model of Geothermal Heat Pumps 329
12.3.3 Graphical Representation on Pressure-Enthalpy (P-h) Diagrams 330
12.3.4 Heat Exchanger Analysis 333
12.4 General Source-Sink Configurations 342
12.5 Mechanics of Operation 347
12.5.1 The Compressor 347
12.5.2 The Condenser 349
12.5.3 The Expansion Valve 352
xii
Contents
12.5.4 The Evaporator 353
12.5.5 Other Components 355
12.5.6 Heat Pump Power Requirements 356
12.5.7 Performance Modeling 357
12.6 Transcritical Cycles 366
12.7 Vapor Compression Heat Pump Performance Standards and Manufacturer’s
Catalog Data 370
12.7.1 International Standards 370
12.7.2 Data from Manufacturer s Catalogs 372
12.8 Chapter Summary 373
Discussion Questions and Exercise Problems 374
13 Thermally Driven Heat Pumps 376
13.1 Overview 376
13.2 Cycle Basics 377
13.3 Absorption Cycles 378
13.3.1 Source-Sink Configurations and Refrigerant-Absorbent Pairs 378
13.3.2 Mechanics of Operation 380
13.3.3 Thermodynamic Considerations 382
13.3.4 Heat Transfer Considerations 387
13.3.5 Performance Modeling 389
13.4 Adsorption Cycles 396
13.5 Thermally Driven Heat Pump Performance Standards and Manufacturer’s
Catalog Data 397
13.6 Chapter Summary 397
Discussion Questions and Exercise Problems 398
14 Organic Ranklne Cycle (Binary) Geothermal Power Plants 399
14.1 Overview 399
14.2 The Ideal Rankine Cycle 400
14.3 The Non-Ideal Rankine Cycle 402
14.3.1 Principal Irreversibilities and Isentropic Efficiency 402
14.3.2 Engineering Model of ORC Geothermal Power Plants 403
14.3.3 Graphical Representation on Pressure—Enthalpy (P-h) Diagrams 405
14.3.4 Heat Exchanger Analysis 408
14.3.5 Parasitic Loads 410
14.4 Organic Rankine Cycle Performance Modeling 410
14.5 Chapter Summary 416
Discussion Questions and Exercise Problems 416
Part IV Energy Distribution 419
15 Inside the Building 421
15.1 Overview 421
15.2 Heat Pump Piping Configurations 421
15.2.1 Single-Zone Systems 421
Contents
xiii
15.2.2 Distributed Geothermal Heat Pump Systems 422
15.2.3 Central Plant Geothermal Heat Pump Systems 424
15.3 Hydronic Heating and Cooling Systems 425
15.4 Forced-Air Heating and Cooling Systems 425
15.5 Ventilation Air and Heat Pumps 426
15.5.1 Ventilation with Outdoor Air 426
15.5.2 Outdoor Air and Single-Zone Geothermal Heat Pumps 427
15.5.3 Dedicated Outdoor Air Systems 430
15.6 Chapter Summary 431
Discussion Questions and Exercise Problems 431
16 Energy Economics and Environmental Impact 433
16.1 Overview 433
16.2 Simple Payback Period and Rate of Return 434
16.3 Time Value of Money 435
16.3.1 Present Value of a Future Amount 435
16.3.2 Present Value of a Series of Annuities 435
16.3.3 Present Value of an Escalating Series of Annuities 436
16.3.4 The Discount Rate and Inflation 437
16.4 Cost Considerations for Geothermal Energy Systems 437
16.4.1 Economic Indicators of Merit 437
16.4.2 Costs of Geothermal Energy Systems 438
16.5 Uncertainty in Economic Analyses 439
16.6 Environmental Impact 441
16.6.1 Fossil Fuel Combustion and C02 Emissions 441
16.6.2 Water Consumption 443
16.7 Chapter Summary 444
Appendix A: Software Used in this Book 445
A. 1 The GHX Tool Box 445
A.2 Engineering Equation Solver (EES) 445
A.3 Installing and Using the Excel Solver for Optimization Problems 446
What is the Excel Solver? 446
Installing the Excel Solver 446
Using the Excel Solver 446
Appendix B: Hydraulic and Thermal Property Data 448
Appendix C: Solar Utilizability Method 450
Nomenclature 454
References 459
Index 464
Geothermal Heat Pump
and Heat Engine Systems
Theory and Practice
Andrew D. Chiasson ■ University of Dayton, USA
A unique approach to the study of geothermal
energy systems
This book takes a unique, holistic approach to the interdisciplinary study of
geothermal energy systems, combining low-, medium-, and high-temperature
applications into a logical order. The emphasis is on the concept that all geothermal
projects contain common elements of a ‘thermal energy reservoir that must be
properly designed and managed.
The book is organized into four sections that examine geothermal systems:
energy utilization from resource and site characterization: energy harnessing:
energy conversion (heat pumps, direct uses, and heat engines): and energy
distribution and uses.
Examples are provided to highlight fundamental concepts, in addition to more
complex system design and simulation.
Key features:
• Companion website containing software tools for application of fundamental
principles and solutions to real-world problems.
• Balance of theory, fundamental principles, and practical application.
• Interdisciplinary treatment of the subject matter.
Geothermal Heat Pump and Heat Engine Systems: Theory and Practice is a
unique textbook for Energy Engineering and Mechanical Engineering students
as well as practicing engineers who are involved with low-enthalpy geothermal
energy systems.
This Work is a co-publication between
ASME Press and John Wiley Sons, Ltd.
|
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| id | DE-604.BV043813206 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T07:35:46Z |
| institution | BVB |
| isbn | 9781118961940 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029224404 |
| oclc_num | 963367802 |
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| owner | DE-703 DE-1050 DE-29T |
| owner_facet | DE-703 DE-1050 DE-29T |
| physical | xvii, 473 Seiten Illustrationen, Diagramme |
| publishDate | 2016 |
| publishDateSearch | 2016 |
| publishDateSort | 2016 |
| publisher | ASME Press |
| record_format | marc |
| series2 | Wiley-ASME Press series in mechanical engineering |
| spelling | Chiasson, Andrew D. 1966- Verfasser (DE-588)1119103851 aut Geothermal heat pump and heat engine systems theory and practice Andrew Chiasson [New York] ASME Press 2016 xvii, 473 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Wiley-ASME Press series in mechanical engineering Titel der monografischen Reihe im Vorwort genannt Ground source heat pump systems Heat pumps Thermodynamics Heat-engines Thermodynamics Wärmepumpe (DE-588)4064195-8 gnd rswk-swf Energieerzeugung (DE-588)4070813-5 gnd rswk-swf Geothermik (DE-588)4020285-9 gnd rswk-swf Geothermik (DE-588)4020285-9 s Wärmepumpe (DE-588)4064195-8 s DE-604 Energieerzeugung (DE-588)4070813-5 s Erscheint auch als Online-Ausgabe, pdf 978-1-118-96197-1 Erscheint auch als Online-Ausgabe 978-1-118-96196-4 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029224404&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029224404&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Chiasson, Andrew D. 1966- Geothermal heat pump and heat engine systems theory and practice Ground source heat pump systems Heat pumps Thermodynamics Heat-engines Thermodynamics Wärmepumpe (DE-588)4064195-8 gnd Energieerzeugung (DE-588)4070813-5 gnd Geothermik (DE-588)4020285-9 gnd |
| subject_GND | (DE-588)4064195-8 (DE-588)4070813-5 (DE-588)4020285-9 |
| title | Geothermal heat pump and heat engine systems theory and practice |
| title_auth | Geothermal heat pump and heat engine systems theory and practice |
| title_exact_search | Geothermal heat pump and heat engine systems theory and practice |
| title_full | Geothermal heat pump and heat engine systems theory and practice Andrew Chiasson |
| title_fullStr | Geothermal heat pump and heat engine systems theory and practice Andrew Chiasson |
| title_full_unstemmed | Geothermal heat pump and heat engine systems theory and practice Andrew Chiasson |
| title_short | Geothermal heat pump and heat engine systems |
| title_sort | geothermal heat pump and heat engine systems theory and practice |
| title_sub | theory and practice |
| topic | Ground source heat pump systems Heat pumps Thermodynamics Heat-engines Thermodynamics Wärmepumpe (DE-588)4064195-8 gnd Energieerzeugung (DE-588)4070813-5 gnd Geothermik (DE-588)4020285-9 gnd |
| topic_facet | Ground source heat pump systems Heat pumps Thermodynamics Heat-engines Thermodynamics Wärmepumpe Energieerzeugung Geothermik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029224404&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029224404&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT chiassonandrewd geothermalheatpumpandheatenginesystemstheoryandpractice |