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Die Empfehlungen fassen den Stand der Technik zusammen. Das Ziel ist die fachgerechte Erschließung des Untergrunds für geothermische Zwecke sowie die Vermeidung von Schäden für den Boden und das Grundwasser einerseits und für den Betrieb der Anlage sowie der Bebauung andererseits. Die Empfehlungen sollen als Arbeitshilfe die optimale und nachhaltige geothermische Nutzung des Untergrunds am konkreten Standort in Beratung, Planung, Bauausführung und Betrieb begleiten. Die Fach- und Genehmigungsbehörden erhalten die Möglichkeit, sich bei ihren Entscheidungen und Vorgaben an den Empfehlungen zu orientieren.
Auteur
The study group Geothermie is a joint study group working since March 2007. Its members are of the section Hydrology of the Deutsche Geologischen Geselschaft - Geologische Vereinigung e.V. (DGGV, formerly DGG) and the section Ingenieurgeologie of the Deutsche Gesellschaft fur Geotechnik e.V. (DGGT) and the DGGV.
Résumé
The recommendations summarise the state of the art. Their aim is the proper exploitation of the ground for geothermal purposes without adversely affecting the ground or the groundwater on the one hand and the operation of the system and nearby buildings on the other. The recommendations should be used during consulting, design, installation and operation in order to achieve optimum and sustainable use of the ground at a specific location. Authorities responsible for supervising and approving projects can use the recommendations as a guide when taking decisions and making stipulations.
The Geothermal Energy Study Group was set up in Bochum in 2004 and became the joint DGGV/DGGT study group in 2007. Some 20 specialists from universities, authorities and engineering consultants are active in the group and meet two or three times a year.
Contenu
Preface IX
Acknowledgements XIII
List of Figures XV
List of Tables XXV
Preamble XXVII
Notation XXIX
1 Introduction 1
2 Principles 5
2.1 Geological, hydrogeological and geotechnical principles 5
2.2 Geothermal principles 12
2.3 Solar energy zone 29
2.4 Geosolar transition zone 31
2.5 Terrestrial zone 35
2.6 Anthropogenic thermal influence 36
2.7 Interaction between geothermal energy systems and the ground 37
2.7.1 Hydrochemical interactions 39
2.7.2 Interactions between geothermal systems and groundwater organisms 39
3 Geothermal energy installations 41
3.1 Closed systems 42
3.1.1 Borehole heat exchangers (downhole heat exchangers) 42
3.1.2 Heat pipes 50
3.1.3 Horizontal collectors 51
3.1.4 Thermal piles and concrete components in contact with the soil 55
3.2 Open systems (direct use of groundwater) 59
3.2.1 Well systems 61
3.2.2 Geothermal energy in conjunction with mines and underground workings 65
3.3 Geothermal energy storage concepts 70
3.3.1 Aquifer thermal energy storage 70
3.3.2 Borehole thermal energy storage 71
3.3.3 Cavern thermal energy storage (CTES) 72
4 Legislative principles 73
4.1 Water legislation 73
4.1.1 European regulations 73
4.1.2 National law 74
4.2 Mining legislation 74
4.3 Natural mineral deposits legislation 75
4.4 Nature and landscape conservation 75
4.4.1 The european 'natura 2000' ecological network 75
4.4.2 Nature and landscape conservation 76
4.5 Environmental impact assessment 77
4.6 Non-statutory regulations 77
5 Planning principles 78
5.1 Project workflow 79
5.1.1 Establishing the basis of the project 79
5.1.2 Preliminary design 80
5.1.3 Final design 80
5.1.4 Building permission application 81
5.1.5 Detailed design 81
5.1.6 Preparing for contract award and assisting in award process 82
5.1.7 Supervising and setting up the operation 82
5.2 Surveying requirements for BHE installations 83
5.2.1 Geothermal category 1 83
5.2.2 Exploratory measures for category 1 84
5.2.3 Geothermal category 2 84
5.2.4 Additional exploratory measures for category 2 84
5.2.5 Geothermal category 3 84
5.2.6 Additional exploratory measures for category 3 84
5.3 Models for simulating heat transfer 85
6 Boreholes and completion 91
6.1 Drilling methods 91
6.2 Equipment in boreholes 94
6.3 Boreholes: deviation from the vertical 97
6.4 Geological and hydrogeological influences 104
6.5 Response test methods 109
6.5.1 GRT concepts and measuring principle 110
6.5.2 Evaluation. 111
6.5.3 Thermal resistance of borehole 115
6.5.4 Quality control with the help of the GRT 117
6.5.5 Evaluation of unsteady GRT data 118
6.5.6 Cylinder source method 119
6.5.7 Enhanced geothermal response test 136
7 Design, construction and operation of closed systems 143
7.1 sBHE systems 143
7.1.1 Detailed design 143
7.1.2 Backfilling the annular space 155
7.1.3 Requirements profile for backfill material 158
7.1.4 BHEs that are not fully sealed 177
7.1.5 Pressure and flow tests for BHEs 179
7.1.6 Thermal transfer fluids 190
7.1.7 Horizontal connecting pipes and connection to building services 194
7.1.8 Commissioning, operation and maintenance 196
7.1.9 Documentation 199
7.1.10 Abandoning and decommissioning 200
7.2 Horizontal collectors 201
7.2.1 Planning and designing collector systems 201 ...