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Author: Philipp Wolpert
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
This study systematically investigates the geothermal reservoir properties of the approximately 500-600 m thick Upper Jurassic carbonates in the subsurface of the Molasse basin, where only specific intervals contribute to the geothermal aquifer. Therefore, this study integrates all relevant aspects of geothermal reservoir characterization in carbonates following an 1-D (core and well data) to 2-D (correlations) to 3-D (seismic interpretation and integration) approach. This hierarchical workflow, which is based on reservoir characterization workflows established by the hydrocarbon industry is then modified to understand the characteristics and distribution of geothermal reservoir types involving the following steps: (1) core-based facies analysis, (2) borehole image and well log analysis, (3) sequence-stratigraphic framework, (4) interpretation of depositional environments, (5) identification of potential reservoir types and (6) integration of dynamic data. The core-based facies analysis reveals twentytwo lithofacies types, three depositional sequences for the Upper Jurassic and one for the Upper Jurassic/Lower Cretaceous Purbeck Formation. Large parts of the interpreted depositional environment correspond to a relatively deep (below storm-wave base) deposetting. Towards the top of the succession, a change to a shallower, higher water energy environment is observed, with clear indications of exposure. A newly established multi-proxy workflow for borehole image interpretation in carbonates reveals novel opportunities to link the core-based observations with the borehole images and shows how to maximize the value of information of such logs. The vertical stacking of nine distinct borehole image facies types, as well as a semi-quantitative charting of stratal surfaces, provided new insights into the sequence-stratigraphic development and the characterization of geothermal reservoir types. The evaluation of the 3D seismic survey yielded a best practice approach to differentiate three dominating seismic facies types based on their reflectivity and to differentiate between potential reservoir facies and non-reservoir facies. The results of the 1-D and 2- D analysis were used to validate the interpretation on various scales and draw 4 conclusions, that can be applied directly to the early exploration stage of emerging geothermal projects in the Molasse basin. The local, regional and basin-wide sequence-stratigraphic correlation show thickness variations of the Upper Jurassic carbonates. The integration of paleotectonic aspects into the sequence-stratigraphic interpretation adds to the understanding of these thickness variations. Along with the thickness variations, a change of depositional environment and facies types were documented. All these factors affect the characteristics and the distribution of potential geothermal reservoir types. Ultimately, the integration of dynamic data allows a ranking of the geothermal reservoir types and a subdivision into “high-k dominated” and “matrix-dominated” geothermal reservoir types. It shows that the investigated Upper Jurassic geothermal field of the study area is a combination of structural and stratigraphic traps. The sequence stratigraphic context explains the distribution of the preferential fluid pathways and is a crucial element for a successful and sustainable geothermal development strategy in Upper Jurassic carbonates.
Author: Philipp Wolpert
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
This study systematically investigates the geothermal reservoir properties of the approximately 500-600 m thick Upper Jurassic carbonates in the subsurface of the Molasse basin, where only specific intervals contribute to the geothermal aquifer. Therefore, this study integrates all relevant aspects of geothermal reservoir characterization in carbonates following an 1-D (core and well data) to 2-D (correlations) to 3-D (seismic interpretation and integration) approach. This hierarchical workflow, which is based on reservoir characterization workflows established by the hydrocarbon industry is then modified to understand the characteristics and distribution of geothermal reservoir types involving the following steps: (1) core-based facies analysis, (2) borehole image and well log analysis, (3) sequence-stratigraphic framework, (4) interpretation of depositional environments, (5) identification of potential reservoir types and (6) integration of dynamic data. The core-based facies analysis reveals twentytwo lithofacies types, three depositional sequences for the Upper Jurassic and one for the Upper Jurassic/Lower Cretaceous Purbeck Formation. Large parts of the interpreted depositional environment correspond to a relatively deep (below storm-wave base) deposetting. Towards the top of the succession, a change to a shallower, higher water energy environment is observed, with clear indications of exposure. A newly established multi-proxy workflow for borehole image interpretation in carbonates reveals novel opportunities to link the core-based observations with the borehole images and shows how to maximize the value of information of such logs. The vertical stacking of nine distinct borehole image facies types, as well as a semi-quantitative charting of stratal surfaces, provided new insights into the sequence-stratigraphic development and the characterization of geothermal reservoir types. The evaluation of the 3D seismic survey yielded a best practice approach to differentiate three dominating seismic facies types based on their reflectivity and to differentiate between potential reservoir facies and non-reservoir facies. The results of the 1-D and 2- D analysis were used to validate the interpretation on various scales and draw 4 conclusions, that can be applied directly to the early exploration stage of emerging geothermal projects in the Molasse basin. The local, regional and basin-wide sequence-stratigraphic correlation show thickness variations of the Upper Jurassic carbonates. The integration of paleotectonic aspects into the sequence-stratigraphic interpretation adds to the understanding of these thickness variations. Along with the thickness variations, a change of depositional environment and facies types were documented. All these factors affect the characteristics and the distribution of potential geothermal reservoir types. Ultimately, the integration of dynamic data allows a ranking of the geothermal reservoir types and a subdivision into “high-k dominated” and “matrix-dominated” geothermal reservoir types. It shows that the investigated Upper Jurassic geothermal field of the study area is a combination of structural and stratigraphic traps. The sequence stratigraphic context explains the distribution of the preferential fluid pathways and is a crucial element for a successful and sustainable geothermal development strategy in Upper Jurassic carbonates.
Author: Abdul Shakoor
Publisher: Springer
ISBN: 331993127X
Category : Science
Languages : en
Pages : 177
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Book Description
This book is one out six IAEG XIII Congress and AEG 61st Annual Meeting proceeding volumes, and deals with topics related to the geotechnical and environmental site characterization. The theme of the IAEG/AEG Meeting, held in San Francisco from September 17-21, 2018, is Engineering Geology for a Sustainable World. The meeting proceedings analyze the dynamic role of engineering geology in our changing world. The meeting topics and subject areas of the six volumes are: Slope Stability: Case Histories, Landslide Mapping, Emerging Technologies; Geotechnical and Environmental Site Characterization; Mining, Aggregates, Karst; Dams, Tunnels, Groundwater Resources, Climate Change; Geologic Hazards: Earthquakes, Land Subsidence, Coastal Hazards, and Emergency Response; and Advances in Engineering Geology: Education, Soil and Rock Properties, Modeling.
Author: Abdul Shakoor
Publisher: Springer
ISBN: 3319931334
Category : Science
Languages : en
Pages : 122
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Book Description
This book is one out of six IAEG XIII Congress and AEG 61st Annual Meeting proceeding volumes, and deals with topics related to dams, tunnels, groundwater resources, and climate change. The theme of the IAEG/AEG Meeting, held in San Francisco from September 17-21, 2018, is Engineering Geology for a Sustainable World. The meeting proceedings analyze the dynamic role of engineering geology in our changing world. The meeting topics and subject areas of the six volumes are: Slope Stability: Case Histories, Landslide Mapping, Emerging Technologies; Geotechnical and Environmental Site Characterization; Mining, Aggregates, Karst; Dams, Tunnels, Groundwater Resources, Climate Change; Geologic Hazards: Earthquakes, Land Subsidence, Coastal Hazards, and Emergency Response; and Advances in Engineering Geology: Education, Soil and Rock Properties, Modeling.
Author: Bernhard Ziegler
Publisher:
ISBN:
Category : Geology
Languages : en
Pages : 79
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Author:
Publisher:
ISBN:
Category :
Languages : de
Pages : 0
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Author: Ingrid Stober
Publisher: Springer Science & Business Media
ISBN: 3642133525
Category : Technology & Engineering
Languages : en
Pages : 290
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Book Description
The internal heat of the planet Earth represents an inexhaustible reservoir of thermal energy. This form of energy, known as geothermal energy has been utilized throughout human history in the form of hot water from hot springs. Modern utilization of geothermal energy includes direct use of the heat and its conversion to other forms of energy, mainly electricity. Geothermal energy is a form of renewable energy and its use is associated with very little or no CO2-emissions and its importance as an energy source has greatly increased as the effects of climate change become more prominent. Because of its inexhaustibility it is obvious that utilization of geothermal energy will become a cornerstone of future energy supplies. The exploration of geothermal resources has become an important topic of study as geology and earth science students prepare to meet the demands of a rapidly growing industry, which involves an increasing number professionals and public institutions participating in geothermal energy related projects. This book meets the demands of both groups of readers, students and professionals. Geothermal Energy and its utilization is systematically presented and contains the necessary technical information needed for developing and understanding geothermal energy projects. It presents basic knowledge on the Earth’s thermal regime and its geothermal energy resources, the types of geothermal energy used as well as its future potential and the perspectives of the industry. Specific chapters of the book deal with borehole heat exchangers and with the direct use of groundwater and thermal water in hydrogeothermal systems. A central topic are Enhanced Geothermal Systems (hot-dry-rock systems), a key technology for energy supply in the near future. Pre-drilling site investigations, drilling technology, well logging and hydraulic test programs are important subjects related to the exploration phase of developing Geothermal Energy sites. The chemical composition of the natural waters used as a heat transport medium in geothermal systems can be used as an exploration tool, but chemistry is also important during operation of a geothermal power plant because of potential scale formation and corrosion of pipes and installations, which needs to be prevented. Graduate students and professionals will find in depth information on Geothermal Energy, its exploration and utilization.
Author: David R. Boden
Publisher: CRC Press
ISBN: 1498708803
Category : Science
Languages : en
Pages : 426
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Book Description
Geothermal energy stands out because it can be used as a baseload resource. This book, unlike others, examines the geology related to geothermal applications. Geology dictates (a) how geothermal resources can be found, (b) the nature of the geothermal resource (such as liquid- or vapor-dominated) and (c) how the resource might be developed ultimately (such as flash or binary geothermal plants). The compilation and distillation of geological elements of geothermal systems into a single reference fills a notable gap.
Author: Vladimir Litvinenko
Publisher: CRC Press
ISBN: 0429868588
Category : Technology & Engineering
Languages : en
Pages : 1802
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Book Description
Geomechanics and Geodynamics of Rock Masses contains contributions presented at EUROCK 2018, the 2018 International Symposium of the International Society for Rock Mechanics (ISRM 2018, Saint Petersburg, Russia, 22-26 May 2018). Dedicated to recent advances and achievements in the fields of geomechanics and geotechnology, the main topics of the book include: - Physical and mechanical properties of fractured rock (laboratory testing and rock properties, field measurements and site investigations) - Geophysics in rock mechanics - Rock mass strength and failure - Nonlinear problems in rock mechanics - Effect of joint water on the behavior of rock foundation - Numerical modeling and back analysis - Mineral resources development: methods and rock mechanics problems - Rock mechanics and underground construction in mining, hydropower industry and civil engineering - Rock mechanics in petroleum engineering - Geodynamics and monitoring of rock mass behavior - Risks and hazards - Geomechanics of technogenic deposits Geomechanics and Geodynamics of Rock Masses will be of interest to researchers and professionals involved in the various branches of rock mechanics and rock engineering. EUROCK 2018, organized by the Saint Petersburg Mining University, is a continuation of the successful series of ISRM symposia in Europe, which began in 1992 in Chester, UK.
Author: Vladimir Litvinenko
Publisher: CRC Press
ISBN: 0429867697
Category : Technology & Engineering
Languages : en
Pages : 710
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Book Description
This book is Volume 2 of the EUROCK 2018 proceedings. Geomechanics and Geodynamics of Rock Masses contains contributions presented at EUROCK 2018, the 2018 International Symposium of the International Society for Rock Mechanics (ISRM 2018, Saint Petersburg, Russia, 22-26 May 2018). Dedicated to recent advances and achievements in the fields of geomechanics and geotechnology, the main topics of the book include: - Physical and mechanical properties of fractured rock (laboratory testing and rock properties, field measurements and site investigations) - Geophysics in rock mechanics - Rock mass strength and failure - Nonlinear problems in rock mechanics - Effect of joint water on the behavior of rock foundation - Numerical modeling and back analysis - Mineral resources development: methods and rock mechanics problems - Rock mechanics and underground construction in mining, hydropower industry and civil engineering - Rock mechanics in petroleum engineering - Geodynamics and monitoring of rock mass behavior - Risks and hazards - Geomechanics of technogenic deposits Geomechanics and Geodynamics of Rock Masses will be of interest to researchers and professionals involved in the various branches of rock mechanics and rock engineering. EUROCK 2018, organized by the Saint Petersburg Mining University, is a continuation of the successful series of ISRM symposia in Europe, which began in 1992 in Chester, UK.
Author: Elena Mraz
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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