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Geothermal heat pumps : a guide for planning and installing / Karl Ochsner.

By: Material type: TextTextLanguage: English Original language: German Publication details: London ; Sterling, VA : Earthscan, 2008.Description: xvi, 146 p. : ill. ; 24 cmISBN:
  • 1844074064 (pbk.)
  • 9781844074068 (pbk.)
Uniform titles:
  • Warmepumpen in der Heizungstechnik. English
Subject(s): DDC classification:
  • 697 OCH
Contents:
1.Reasons to Use a Heat Pump 1.1 Environmental benefits 1.1.1Our environment is in danger 1.1.2Tracking down the culprit 1.1.3Heat pumps operate absolutely emission-free on-site 1.2Lowest Operating Costs 1.3Independence 1.4Comfort 1.5Security for the Future 1.6Non-Flammability 1.7Responsibility for the Future 1.8Ideal for Low Energy Houses 1.9Retrofit 1.10Multiple Functions 1.11Public Promotion 1.12Energy Politics / Laws 2.Theory of the Heat Pump 2.1The Principle 2.2The Refrigeration Cycle 2.3Coefficient of Performance 2.4Carnot Cycle 2.5Working Fluid / Refrigerant 2.6Enthalpy-Pressure Diagram 3.Heat Pump Types 3.1Brine/Water, Water/Water Heat Pump 3.1.1Refrigeration Cycle 3.1.2Refrigerant 3.1.3Electrical Components and Controller 3.1.4Safety Measures 3.1.5Display 3.2Direct Expansion/Water Heat Pump 3.2.1Refrigeration Cycle 3.2.2Refrigerant 3.2.3Electrical Components and Controller 3.2.4Safety Measures 3.2.5Display 3.3Direct Expansion/Direct Condensation Heat Pump 3.4Air/ Water Heat Pump ¿ Split Units 3.4.1Refrigeration Components¿ Indoor Unit 3.4.2Refrigeration Components ¿ Outdoor Unit 3.4.3Refrigerant 3.4.4Electrical Components and Controller 3.4.5Safety Measures 3.4.6Display 3.5Air/Water Heat Pump - Compact Units, Indoor Setup 3.5.1Refrigeration Cycle 3.5.2Refrigerant 3.5.3Electrical Components and Controller 3.5.4Safety Measures 3.5.5Display 3.6Air/Water Heat Pump - Compact Units, Outdoor Setup 3.7Air/Water Heat Pump ¿ Domestic Hot Water / Multi-Function Units 3.7.1Refrigeration Cycle 3.7.2Refrigerant 3.7.3Electrical Components 3.8Ground/Water Heat Pump ¿ Domestic Hot Water Compact Units 3.9Air/Water Heat Pump ¿ Domestic Hot Water Split Units 3.10Ground/Water Heat Pump ¿ Domestic Hot Water Split Units 3.11Air/Air Heat Pump ¿ Ventilation 3.12Air/Air, Air/Water Heat Pump ¿ Ventilation with Domestic Hot Water Preparation 4.Complete System Planning 4.1Planning a Heat Pump Heating System 4.2Heat Source Selection 4.3Heating System Selection 4.4Heat Pump Selection 4.4.1Determination of Heating Demand 4.4.2Utility Interruptible Rates 4.4.3Domestic Hot Water Heating 4.4.4Operation Configurations 4.4.5Heat Pump Selection 4.5Retrofit / Renovation 5.Planning Instructions for Ground Heat Source - Brine Systems (Flat Collector, Trench, Vertical Loop) 5.1Ground Heat Source 5.2Ground Conditions 5.3Layout and Installation of Collector + Earth Loop 5.3.1 Flat Collector Installations 5.3.2Trench Collector 5.4Connection 5.4.1Collection Vault 5.4.2Safety Clearance 5.4.3Wall Feed-Through 5.5Brine Circulation Loop 5.6Commissioning 5.7CO2 Loop 6.Planning Instructions for Ground Heat Source - Direct Expansion Systems 6.1Ground Heat Source 6.2Ground Conditions 6.3Layout and Installation of Collector 6.3.1Horizontal Loop Installations 6.4Connection 6.4.1Collection Vault 6.4.2Safety Clearance 6.4.3Wall Feed-Through 6.5Commissioning 7.Planning Instructions for Water Heat Source Systems 7.1Water Heat Source 7.2Ground and Well Conditions 7.3Design 7.4Connection 7.5Components / Filter 7.6Wall Feed-Through 7.7Commissioning 8.Planning Details for Air Heat Source Systems 8.1Air Heat Source 8.2Design 8.2.1Split-System 8.2.2Compact Systems - Indoor Setup 8.3Operation Configuration 8.3.1Monovalent systems (max. supply temp. 55°C to 65° C) 8.3.2Bivalent-Parallel (max. supply temp. 55°C to 65° C) 8.3.3Bivalent-Alternate (suitable for supply temperatures up to 90°C) 8.4Commissioning 9.Planning Instructions ¿ Heating Systems 9.1Heating Circulation Loop Control 9.2Hydraulic Separation 9.3Buffer Storage Tank 9.4Circulation Pump 9.5Connection Group 9.6Heating/Cooling Distribution System 9.6.1Radiant Floor Heating 9.6.2Heating Capacity and Self-Controlling Effect 9.6.3Radiant Wall Heating 9.6.4Radiators 9.7Domestic Hot Water Preparation 10.Heating and Cooling ¿ Reversible Heat Pump 10.1Response to Climate Change 10.2Technical Requirements for Buildings 10.3Planning for Active Cooling 10.4Sizing of Ground Collectors and Vertical Loops 10.5Cooling Distribution System, Silent Cooling 10.6Control 10.7Economics 10.8Solar Cooling 10.9Groundwater Heat Source 10.10Operating Range 11.Control of Heat Pump Heating Systems, Electrical Connections 11.1Controller and Control System 11.2Heat Pump Control 11.3Additional Functions of Heat Pump Control 11.4Hydraulic Schematics 11.5 Single Room Control/Zone Control 11.6Other Systems 11.7Electrical Connections 12.Domestic Hot Water Production 12.1General Instructions for Domestic Hot Water 12.1.1Why not with the heating loop? 12.1.2Domestic Hot Water System Comparison 12.1.3Separation of Domestic Hot Water from the Heating System 12.1.4Information for Planning and Operation of a Domestic Hot Water System 12.1.5Installation Instructions 12.1.6Hot Water Demand, Guidelines 12.1.7DVGW ¿ Worksheet W551 12.2Additional Functions 12.2.1Additional Cooling Benefit 12.2.2Additional Basement Dehumidifying Benefit 12.2.3Additional Distilled Water Benefit 12.2.4Additional Ventilation Benefit 12.3Installation 12.4Water Connections 12.4.1Water Connections 12.4.2Air Connections 12.4.3Air Ducts 12.4.4Condensate Water Drain 12.4.5Ground Collector Connection 12.4.6Heating Heat Exchanger 13.Controlled Dwelling Ventilation 13.1Why Ventilate? 13.2Why Controlled Dwelling Ventilation? 13.3Types of Controlled Dwelling Ventilation 13.4Comprehensive Living Climate 13.5Combined Units for Heating, Hot Water Preparation and Ventilation 14.Specialized Installations 14.1Renovations 14.2Low Energy / Passive House 14.3Swimming Pool Heating 14.4Livestock Stable Heat Pump 14.5Absorber 14.6Heat Pumps for Industrial Applications 14.7Industrial Waste Heat Use 14.8C02-Heat Pipes
Holdings
Item type Current library Call number Copy number Status Date due Barcode
Long Loan TUS: Midlands, Main Library Athlone General Lending 697 OCH (Browse shelf(Opens below)) 1 Available 00213579
Long Loan TUS: Midlands, Main Library Athlone General Lending 697 OCH (Browse shelf(Opens below)) 1 Available 00213580

1.Reasons to Use a Heat Pump 1.1 Environmental benefits 1.1.1Our environment is in danger 1.1.2Tracking down the culprit 1.1.3Heat pumps operate absolutely emission-free on-site 1.2Lowest Operating Costs 1.3Independence 1.4Comfort 1.5Security for the Future 1.6Non-Flammability 1.7Responsibility for the Future 1.8Ideal for Low Energy Houses 1.9Retrofit 1.10Multiple Functions 1.11Public Promotion 1.12Energy Politics / Laws 2.Theory of the Heat Pump 2.1The Principle 2.2The Refrigeration Cycle 2.3Coefficient of Performance 2.4Carnot Cycle 2.5Working Fluid / Refrigerant 2.6Enthalpy-Pressure Diagram 3.Heat Pump Types 3.1Brine/Water, Water/Water Heat Pump 3.1.1Refrigeration Cycle 3.1.2Refrigerant 3.1.3Electrical Components and Controller 3.1.4Safety Measures 3.1.5Display 3.2Direct Expansion/Water Heat Pump 3.2.1Refrigeration Cycle 3.2.2Refrigerant 3.2.3Electrical Components and Controller 3.2.4Safety Measures 3.2.5Display 3.3Direct Expansion/Direct Condensation Heat Pump 3.4Air/ Water Heat Pump ¿ Split Units 3.4.1Refrigeration Components¿ Indoor Unit 3.4.2Refrigeration Components ¿ Outdoor Unit 3.4.3Refrigerant 3.4.4Electrical Components and Controller 3.4.5Safety Measures 3.4.6Display 3.5Air/Water Heat Pump - Compact Units, Indoor Setup 3.5.1Refrigeration Cycle 3.5.2Refrigerant 3.5.3Electrical Components and Controller 3.5.4Safety Measures 3.5.5Display 3.6Air/Water Heat Pump - Compact Units, Outdoor Setup 3.7Air/Water Heat Pump ¿ Domestic Hot Water / Multi-Function Units 3.7.1Refrigeration Cycle 3.7.2Refrigerant 3.7.3Electrical Components 3.8Ground/Water Heat Pump ¿ Domestic Hot Water Compact Units 3.9Air/Water Heat Pump ¿ Domestic Hot Water Split Units 3.10Ground/Water Heat Pump ¿ Domestic Hot Water Split Units 3.11Air/Air Heat Pump ¿ Ventilation 3.12Air/Air, Air/Water Heat Pump ¿ Ventilation with Domestic Hot Water Preparation 4.Complete System Planning 4.1Planning a Heat Pump Heating System 4.2Heat Source Selection 4.3Heating System Selection 4.4Heat Pump Selection 4.4.1Determination of Heating Demand 4.4.2Utility Interruptible Rates 4.4.3Domestic Hot Water Heating 4.4.4Operation Configurations 4.4.5Heat Pump Selection 4.5Retrofit / Renovation 5.Planning Instructions for Ground Heat Source - Brine Systems (Flat Collector, Trench, Vertical Loop) 5.1Ground Heat Source 5.2Ground Conditions 5.3Layout and Installation of Collector + Earth Loop 5.3.1 Flat Collector Installations 5.3.2Trench Collector 5.4Connection 5.4.1Collection Vault 5.4.2Safety Clearance 5.4.3Wall Feed-Through 5.5Brine Circulation Loop 5.6Commissioning 5.7CO2 Loop 6.Planning Instructions for Ground Heat Source - Direct Expansion Systems 6.1Ground Heat Source 6.2Ground Conditions 6.3Layout and Installation of Collector 6.3.1Horizontal Loop Installations 6.4Connection 6.4.1Collection Vault 6.4.2Safety Clearance 6.4.3Wall Feed-Through 6.5Commissioning 7.Planning Instructions for Water Heat Source Systems 7.1Water Heat Source 7.2Ground and Well Conditions 7.3Design 7.4Connection 7.5Components / Filter 7.6Wall Feed-Through 7.7Commissioning 8.Planning Details for Air Heat Source Systems 8.1Air Heat Source 8.2Design 8.2.1Split-System 8.2.2Compact Systems - Indoor Setup 8.3Operation Configuration 8.3.1Monovalent systems (max. supply temp. 55°C to 65° C) 8.3.2Bivalent-Parallel (max. supply temp. 55°C to 65° C) 8.3.3Bivalent-Alternate (suitable for supply temperatures up to 90°C) 8.4Commissioning 9.Planning Instructions ¿ Heating Systems 9.1Heating Circulation Loop Control 9.2Hydraulic Separation 9.3Buffer Storage Tank 9.4Circulation Pump 9.5Connection Group 9.6Heating/Cooling Distribution System 9.6.1Radiant Floor Heating 9.6.2Heating Capacity and Self-Controlling Effect 9.6.3Radiant Wall Heating 9.6.4Radiators 9.7Domestic Hot Water Preparation 10.Heating and Cooling ¿ Reversible Heat Pump 10.1Response to Climate Change 10.2Technical Requirements for Buildings 10.3Planning for Active Cooling 10.4Sizing of Ground Collectors and Vertical Loops 10.5Cooling Distribution System, Silent Cooling 10.6Control 10.7Economics 10.8Solar Cooling 10.9Groundwater Heat Source 10.10Operating Range 11.Control of Heat Pump Heating Systems, Electrical Connections 11.1Controller and Control System 11.2Heat Pump Control 11.3Additional Functions of Heat Pump Control 11.4Hydraulic Schematics 11.5 Single Room Control/Zone Control 11.6Other Systems 11.7Electrical Connections 12.Domestic Hot Water Production 12.1General Instructions for Domestic Hot Water 12.1.1Why not with the heating loop? 12.1.2Domestic Hot Water System Comparison 12.1.3Separation of Domestic Hot Water from the Heating System 12.1.4Information for Planning and Operation of a Domestic Hot Water System 12.1.5Installation Instructions 12.1.6Hot Water Demand, Guidelines 12.1.7DVGW ¿ Worksheet W551 12.2Additional Functions 12.2.1Additional Cooling Benefit 12.2.2Additional Basement Dehumidifying Benefit 12.2.3Additional Distilled Water Benefit 12.2.4Additional Ventilation Benefit 12.3Installation 12.4Water Connections 12.4.1Water Connections 12.4.2Air Connections 12.4.3Air Ducts 12.4.4Condensate Water Drain 12.4.5Ground Collector Connection 12.4.6Heating Heat Exchanger 13.Controlled Dwelling Ventilation 13.1Why Ventilate? 13.2Why Controlled Dwelling Ventilation? 13.3Types of Controlled Dwelling Ventilation 13.4Comprehensive Living Climate 13.5Combined Units for Heating, Hot Water Preparation and Ventilation 14.Specialized Installations 14.1Renovations 14.2Low Energy / Passive House 14.3Swimming Pool Heating 14.4Livestock Stable Heat Pump 14.5Absorber 14.6Heat Pumps for Industrial Applications 14.7Industrial Waste Heat Use 14.8C02-Heat Pipes

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