Geothermal Energy Systems 2010
DOI: 10.1002/9783527630479.ch4
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Enhancing Geothermal Reservoirs

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Cited by 17 publications
(13 citation statements)
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“…In crystalline rocks characterized by low matrix porosity, the main flow channeling occurs in permeable and connected fractures [ Evans et al ., ]. Thus, projects based on EGS technology require good knowledge of the fracture network to understand flow distribution at depth and to design borehole trajectories according to the geometrical properties of the fracture network [ Schulte et al ., ]. In France, the first industrial geothermal project aiming to produce overheated water from a geothermal resource in a fracture network at the sediment‐basement interface was initiated in 2004 at Rittershoffen (Figure b) [ Baujard et al ., ].…”
Section: Introductionmentioning
confidence: 99%
“…In crystalline rocks characterized by low matrix porosity, the main flow channeling occurs in permeable and connected fractures [ Evans et al ., ]. Thus, projects based on EGS technology require good knowledge of the fracture network to understand flow distribution at depth and to design borehole trajectories according to the geometrical properties of the fracture network [ Schulte et al ., ]. In France, the first industrial geothermal project aiming to produce overheated water from a geothermal resource in a fracture network at the sediment‐basement interface was initiated in 2004 at Rittershoffen (Figure b) [ Baujard et al ., ].…”
Section: Introductionmentioning
confidence: 99%
“…Table 3 summarizes key information including ranges of depth, thickness, temperature, and hydraulic conductivity for different petrothermal reservoirs. A crucial factor in the production of geothermal energy is related to the large uncertainty of effective porosity/permeability and transmissivity/transmissibility values, which directly influence the achievable flow rates and thus doublet power in petrothermal systems (e.g., Schulte et al 2010). Actively deforming areas characterized by extensional and strike-slip settings are favorable for EGS (Cloetingh et al 2010).…”
Section: Petrothermal Reservoirsmentioning
confidence: 99%
“…Hydrothermal systems are systems of warm or hot water present in deep aquifers or hydraulically conductive fault zones (Muffler and Cataldi 1978). Where natural permeability is too low for economic-technical use of geothermal energy, natural joints can be hydraulically stimulated or new fractures formed by injecting pressurized water to enhance permeability and create a heat exchanger, a procedure designated by EGS (Breede et al 2013;Held et al 2014;Huenges 2010). These are called petrothermal systems, unconventional geothermal resources or hot-dry rock (HDR) systems (Breede et al 2013;ENGINE Coordination Action 2008).…”
Section: Background On Different Types Of Geothermal Utilizationsmentioning
confidence: 99%
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