Author: Paul KrugerPublisher:
ISBN:
Category :
Languages : en
Pages : 51
Book Description
Heat Extraction Project
Author: Paul KrugerHeat Extraction Project
Author: Paul KrugerHeat Extraction Project, Geothermal Reservoir Engineering Research at Stanford
Author: Publisher:
ISBN:
Category :
Languages : en
Pages : 31
Book Description
The main objective of the SGP Heat Extraction Project is to provide a means for estimating the thermal behavior of geothermal fluids produced from fractured hydrothermal resources. The methods are based on estimated thermal properties of the reservoir components, reservoir management planning of production and reinjection, and the mixing of reservoir fluids: geothermal, resource fluid cooled by drawdown and infiltrating groundwater, and reinjected recharge heated by sweep flow through the reservoir formation. Several reports and publications, listed in Appendix A, describe the development of the analytical methods which were part of five Engineer and PhD dissertations, and the results from many applications of the methods to achieve the project objectives. The Heat Extraction Project is to evaluate the thermal properties of fractured geothermal resource and forecasted effects of reinjection recharge into operating reservoirs.
Heat Extraction Project, Geothermal Reservoir Engineering Research at Stanford. Fourth Annual Report, January 1, 1988--December 1, 1988
Author: Publisher:
ISBN:
Category :
Languages : en
Pages : 31
Book Description
The main objective of the SGP Heat Extraction Project is to provide a means for estimating the thermal behavior of geothermal fluids produced from fractured hydrothermal resources. The methods are based on estimated thermal properties of the reservoir components, reservoir management planning of production and reinjection, and the mixing of reservoir fluids: geothermal, resource fluid cooled by drawdown and infiltrating groundwater, and reinjected recharge heated by sweep flow through the reservoir formation. Several reports and publications, listed in Appendix A, describe the development of the analytical methods which were part of five Engineer and PhD dissertations, and the results from many applications of the methods to achieve the project objectives. The Heat Extraction Project is to evaluate the thermal properties of fractured geothermal resource and forecasted effects of reinjection recharge into operating reservoirs.
Geothermal-reservoir Engineering Research at Stanford University. Second Annual Report, October 1, 1981-September 30, 1982
Author: Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
Progress in the following tasks is discussed: heat extraction from hydrothermal reservoirs, noncondensable gas reservoir engineering, well test analysis and bench-scale experiments, DOE-ENEL Cooperative Research, Stanford-IIE Cooperative Research, and workshop and seminars. (MHR).
Geothermal Reservoir Engineering Research at Stanford University. Third Annual Report for the Period October 1, 1982-September 30, 1983
Author: Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
Progress is reported in the following areas: heat extraction from hydrothermal reservoirs; radon reservoir engineering; well test analysis and bench scale experiments; field applications; workshop, seminars, and technical information; reinjection technology; and seismic monitoring of vapor/liquid interfaces. (MHR).
Reservoir and Injection Technology
Author: Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
This paper discusses different aspects of geothermal reservoir engineering. General topics covered are: reinjection technology, reservoir technology, and heat extraction. (LSP).
Geothermal Reservoir Engineering Research at Stanford University
Author: Stanford Geothermal ProgramPublisher:
ISBN:
Category :
Languages : en
Pages : 72
Book Description
Geothermal Reservoir Engineering Research at Stanford University. First Annual Report, October 1, 1980-September 30, 1981
Author: Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
The work on energy extraction experiments concerns the efficiency with which the in-place heat and fluids can be produced. The work on noncondensable gas reservoir engineering covers both the completed and continuing work in these two interrelated research areas: radon emanation from the rock matrix of geothermal reservoirs, and radon and ammonia variations with time and space over geothermal reservoirs. Cooperative research programs with Italy and Mexico are described. The bench-scale experiments and well test analysis section covers both experimental and theoretical studies. The small core model continues to be used for the study of temperature effects on absolute permeability. The unconsolidated sand study was completed at the beginning of this contract period. The Appendices describe some of the Stanford Geothermal program activities that results in interactions with the geothermal community. These occur in the form of SGP Technical Reports, presentations at technical meetings and publications in the open literature.
Author: