Verfügbarkeit: Sustainable thermal storage systems

Sustainable thermal storage systems: planning, design, and operations

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Bibliographische Detailangaben
1. Verfasser:	Hyman, Lucas B. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] McGraw-Hill 2011
Schlagworte:	Heat storage Heat engineering Cogeneration of electric power and heat Sustainable buildings > Heating and ventilation Sustainable buildings > Design and construction Wärmespeicherung
Online-Zugang:	Contributor biographical information Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references (p. 283-285) and index
Beschreibung:	XII, 308 S. Ill., graph. Darst.
ISBN:	9780071752978 0071752978

Internformat

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Datensatz im Suchindex

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adam_text	Titel: Sustainable thermal storage systems Autor: Hyman, Lucas B Jahr: 2011 Contents Preface ..................................................... xi Overview ................................................... 1 Introduction ................................................. 1 Benefits of Thermal Storage ................................... 4 Reduced Utility-Bill Peak Demand ....................... 4 Improved Facility Plant Ef ficiencies ...................... 5 Reduced Energy Consumption .......................... 6 Lower Energy Costs .................................... 6 More Flexible Facility Plant Operations ................... 6 Added Backup Capacity ................................ 7 Smaller Facility Equipment Requirements ................. 7 Lower Facility Maintenance Costs ........................ 7 Potential Lower Capital Costs ........................... 7 Economic Benefits ...................................... 8 Environmental Benefits ................................. 8 Benefits to the Utility ................................... 8 Society Benefits ........................................ 9 Thermal Storage Basics ....................................... 9 Thermal Storage Media ................................. 10 Types of Thermal Storage Systems ....................... 12 Thermal Storage Operating Strategies .................... 13 Thermal Storage Economics ............................. 14 History ..................................................... 15 Key Issues Facing Industry Today .............................. 21 References .................................................. 23 Applicability of Thermal Storage Systems ..................... 25 Introduction ................................................. 25 Applicability of Thermal Storage Systems ....................... 25 Facility Loads ............................................... 27 Utility Rate Structures ........................................ 31 Electric Rate Schedules ................................. 34 Effect of Rate Structures on the Most Cost-Effective Solution Chosen ..................................... 36 New Investment Required to Meet New or Expanding Facility Loads ............................................. 36 Emergency Backup ........................................... 36 Fire Protection ............................................... 37 Combustion Turbine Inlet-Air Cooling .......................... 38 3 Types of Thermal Storage Systems ............................ 45 Sensible Thermal Storage Systems .............................. 47 Hot Water Thermal Storage Systems ...................... 48 Chilled Water Systems .................................. 51 Mass Storage Systems .................................. 54 Latent Thermal Storage ....................................... 55 Ice Systems ........................................... 55 Other Phase Change Materials ........................... 61 Seasonal Thermal Storage Systems ............................. 61 4 Sensible Thermal Storage Systems ............................ 63 Introduction ................................................. 63 Factors Affecting the Selection of Sensible Thermal Storage Materials .................................... 64 Solid Sensible Thermal Storage Systems ......................... 64 Use of Building Mass for Thermal Storage ................. 64 Use of the Ground for Sensible Thermal Storage ........... 66 Gravel as a Sensible Thermal Storage ..................... 68 Liquid Sensible Thermal Storage Systems ....................... 68 Natural Storage Containers .............................. 70 Series or Labyrinth Tank Thermal Storage System .......... 70 Multiple Tank Empty Tank System ..................... 71 Membrane or Diaphragm Thermal Storage Systems ........ 73 Stratified Thermal Storage Systems ....................... 74 Sensible Water Thermal Storage System Needs ............. 75 Chilled Water Thermal Storage Systems ......................... 76 Vertical Thermal Stratification ........................... 76 Constant Chilled Water Rise ............................. 77 Separation of Chilled Water Supply and Return ............ 77 Variable-Flow Chilled Water Use ......................... 78 Maintaining Equivalent or Higher Coil Capacity ........... 78 Preventing Increased Supply Water Flow .................. 80 Stratification System Design Requirements ...................... 80 Proper Vertical Separation ............................... 80 Diffuser Design ........................................ 80 Reasonable Storage Time ................................ 81 Storage Below 39°F ..................................... 81 Typical Stratification Challenges ......................... 81 Good Stratified Storage System Characteristics ............. 82 Serendipity of a Good Chilled Water Thermal Storage System ...... 82 Reduced Chiller Energy Consumption .................... 82 Lower Pump Horsepower ............................... 82 Smaller Chilled Water Pumps and Pipes .................. 82 Uninsulated Chilled Water Pipe Potential ................. 82 Better System Balancing and Control ..................... 83 High Reliability and Emergency Cooling .................. 83 Lower Maintenance Cost ................................ 83 Operational Flexibility .................................. 83 Balancing Thermal and Electric Loads .................... 83 Dual-Use as Fire Protection .............................. 83 Water Treatment ....................................... 84 Reference ................................................... 84 5 Latent Thermal Storage Systems .............................. 85 Introduction ................................................. 85 Ice Thermal Storage Technologies .............................. 86 Ice-on-Coil ............................................ 86 Internal Melt Ice-on-Coil ................................ 89 External Melt Ice-on-Coil ............................... 90 Encapsulated Ice Storage ................................ 92 Ice Harvesters ......................................... 93 Ice Slurry ............................................. 94 Seasonal Ice Storage .................................... 95 Ice Storage: Secondary Coolants ......................... 95 Other Phase Change Materials and Applications ................. 96 Phase Change Below 32°F ............................... 99 Summary ................................................... 100 References .................................................. 100 6 Heating Thermal Storage Systems ............................. 101 Introduction................................................. 101 Solar Thermal Power Plants ................................... 102 Parabolic Troughs ...................................... 103 Solar Towers .......................................... 103 Dish/Engine Systems .................................. 103 Thermal Storage Options ............................... 103 Classification ................................................ 105 Storage Concepts ...................................... 105 Storage Media ......................................... 106 Sensible Heat Storage ......................................... 106 Liquid Media Storage .................................. 107 Solid Media Storage .................................... 111 Latent Heat Storage .......................................... 112 Chemical Thermal Storage .................................... 114 References .................................................. 114 7 Thermal Storage System Sizing ............................... 117 Introduction ................................................. 117 Determining or Estimating Facility Loads ....................... 118 Stratified CHW Thermal Storage ............................... 121 Füll Storage System Sizing .............................. 122 Partial Storage (Load Leveling) System Sizing ............. 127 Hot Water Storage Sizing ..................................... 129 Ice Storage System Sizing ..................................... 132 Summary ................................................... 139 8 Conducting a Thermal Storage Feasibility Study ............... 141 Introduction ................................................. 141 Developing Thermal Storage System Alternatives ................ 144 Estimating Energy Use and Cost ............................... 147 Estimating the Budget Construction Costs ....................... 148 Estimating Annual Maintenance Costs .......................... 149 Conducting Economic Analysis ................................ 150 LCC Process ........................................... 150 Making Recommendations .................................... 156 9 Thermal Storage Design Applications ......................... 157 Introduction ................................................. 157 Caution Hags (Lessons Learned) ......................... 160 Sensible Water Thermal Storage Systems ........................ 161 Single Tank Systems .................................... 162 Multiple Tank Systems .................................. 166 Diffuser Design ........................................ 167 Instrumentation and Control Requirements ............... 170 Additional Design Requirements ......................... 171 Chemically Modified CHW Storage Systems ............... 171 Ice Storage System Design .................................... 172 Expanding an Existing Thermal Storage System .................. 175 Multiple Tanks Hydraulically and Statically Balanced ....... 176 Multiple Tanks with Plate-and-Frame Exchangers .......... 176 Increasing the Thermal Storage Tank Height ............... 176 Modification of Coils, Circulation Piping Controls, and Chillers ......................................... 177 Chemical Additive to Increase the Delta-T ................. 178 Conversion to Ice Storage ............................... 178 Hybrid Chilled Water-Ice Systems ........................ 179 10 Thermal Storage Tank Specifications .......................... 181 Introduction ................................................. 181 Aboveground Steel Thermal Storage Tank Specifications .......... 182 Part 1—Execution...................................... 182 Part 2—Products ....................................... 188 Part 3—Execution ...................................... 193 Above- or Belowground Concrete Thermal Storage Tank Specifications ........................................ 199 Part 1—Execution ...................................... 200 Part 2—Material ....................................... 203 Reinforcing Steel ....................................... 204 Part 3—-Construction ................................... 207 11 Thermal Storage Operating and Control Strategies .............. 215 Introduction ................................................. 215 Operating Strategies .......................................... 216 Example Operating Strategy ............................. 219 Control Strategies ............................................ 220 Operating Modes ............................................ 221 Charging Thermal Storage Tank Only ..................... 221 Charging Thermal Storage Tank and Serving Facility Cooling Loads ...................................... 222 Discharging from Thermal Storage Tank Only ............. 222 Discharge from Thermal Storage and Operate Thermal Production Equipment to Meet the Facility Thermal Load ....................................... 222 Operate Thermal Production Equipment Only to Meet the Facility Thermal Load ............................. 222 12 Commissioning of Thermal Storage Systems ................... 223 Introduction ................................................. 223 Thermal Storage Owner Project Requirements ................... 224 OPR Design Considerations ............................. 225 Basis of Design ........................................ 226 ASHRAE Standard 150—Method of Testing the Performance of Cool Storage Systems .................................... 226 Summary ................................................... 229 13 Sustainable Thermal Storage Operations ....................... 231 Introduction ................................................. 231 Understanding the Thermal Storage Plant ....................... 232 Thermal Storage Data Gathering ............................... 233 Metering .............................................. 233 Monitoring ............................................ 234 Thermal Storage Data Analysis ................................ 234 Metrics ............................................... 235 Benchmarking ......................................... 236 Billing ...................................................... 236 Control Strategies ............................................ 237 Operator Training ............................................ 239 Maintenance ................................................ 239 Reserve Funds ............................................... 240 Let People Know the Great Results of Thermal Storage ............ 240 14 Chilled Water Thermal Storage Case Study ..................... 243 University Hospital .......................................... 243 Study Purpose ............................................... 243 Campus Overview ........................................... 244 Existing Cooling and Heating Systems .......................... 244 Existing Energy Costs ........................................ 246 Electricity Rate Schedule ...................................... 248 Existing Central Plant Cooling Load ............................ 248 Future Cooling Load ......................................... 249 Central Chiller Plant Alternatives .............................. 249 Alternative 1—Conventional Chilier Plant (Base Case) ...... 250 Alternative 2—Addition of Füll Storage CHW TES ......... 250 Alternative 3—Addition of Partial Storage CHW TES ....... 252 Alternative Summary ................................... 254 Modeling Process ............................................ 255 Budget Construction Cost Estimates ............................ 255 Alternative 1—Conventional Chiller Plant (Base Case) ...... 255 Alternative 2—Addition of Füll Storage CHW TES ......... 256 Alternative 3—Addition of Partial Storage CHW TES ....... 256 Economic Analysis ........................................... 256 Life-Cycle Costs ....................................... 257 Net Present Value Calculations .......................... 258 Lif e-Cycle-Cost Summary ............................... 258 Conclusions and Recommendations ............................ 258 15 Ice Thermal Storage Case Study ............................... 261 Study Objective .............................................. 261 Central Plant Facilities ........................................ 261 Chilier Plant ........................................... 261 Plant Controls or Metering .............................. 264 Cooling Loads ............................................... 264 Existing Cooling Loads ................................. 264 Future Cooling Loads .................................. 265 Implementing Ice TES at the Facility ............................ 266 Alternatives ........................................... 267 Ice TES System Site ..................................... 273 Utility Rate Structure ......................................... 274 Energy Analysis ............................................. 274 Energy Consumption and Cost .......................... 274 Budget Construction Costs .................................... 276 Life-Cycle-Cost Summary ..................................... 277 Conclusion .................................................. 277 Glossary .................................................... 279 Bibliography ................................................ 283 Index ...................................................... 287
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spelling	Hyman, Lucas B. Verfasser (DE-588)1043134239 aut Sustainable thermal storage systems planning, design, and operations Lucas B. Hyman New York [u.a.] McGraw-Hill 2011 XII, 308 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references (p. 283-285) and index Heat storage Heat engineering Cogeneration of electric power and heat Sustainable buildings Heating and ventilation Sustainable buildings Design and construction Wärmespeicherung (DE-588)4188871-6 gnd rswk-swf Wärmespeicherung (DE-588)4188871-6 s DE-604 http://www.loc.gov/catdir/enhancements/fy1205/2011275414-b.html Contributor biographical information http://www.loc.gov/catdir/enhancements/fy1205/2011275414-d.html Publisher description http://www.loc.gov/catdir/enhancements/fy1205/2011275414-t.html Table of contents only HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027295652&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hyman, Lucas B. Sustainable thermal storage systems planning, design, and operations Heat storage Heat engineering Cogeneration of electric power and heat Sustainable buildings Heating and ventilation Sustainable buildings Design and construction Wärmespeicherung (DE-588)4188871-6 gnd
subject_GND	(DE-588)4188871-6
title	Sustainable thermal storage systems planning, design, and operations
title_auth	Sustainable thermal storage systems planning, design, and operations
title_exact_search	Sustainable thermal storage systems planning, design, and operations
title_full	Sustainable thermal storage systems planning, design, and operations Lucas B. Hyman
title_fullStr	Sustainable thermal storage systems planning, design, and operations Lucas B. Hyman
title_full_unstemmed	Sustainable thermal storage systems planning, design, and operations Lucas B. Hyman
title_short	Sustainable thermal storage systems
title_sort	sustainable thermal storage systems planning design and operations
title_sub	planning, design, and operations
topic	Heat storage Heat engineering Cogeneration of electric power and heat Sustainable buildings Heating and ventilation Sustainable buildings Design and construction Wärmespeicherung (DE-588)4188871-6 gnd
topic_facet	Heat storage Heat engineering Cogeneration of electric power and heat Sustainable buildings Heating and ventilation Sustainable buildings Design and construction Wärmespeicherung
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