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| 新物理模型助力地质碳封存精准监测 快报文章
地球科学快报,2024年第14期
作者: 刘文浩
 Microsoft Word(16Kb) |  收藏 | 浏览/下载:582/0 | 提交时间:2024/07/25
geologic carbon storage physics modeling |
| 拜登政府投资23亿美元资助二氧化碳地质封存项目 快报文章
气候变化快报,2022年第10期
作者: 董利苹
Microsoft Word(15Kb) | 收藏 | 浏览/下载:781/0 | 提交时间:2022/05/19
Biden-Harris Administration $2.3 Billion Geologic Carbon Storage Projects |
| Convective-Reactive CO2 Dissolution in Aquifers With Mass Transfer With Immobile Water 期刊论文
WATER RESOURCES RESEARCH, 2018, 54 (11) : 9585-9604
作者: Babaei, Masoud; Islam, Akand
收藏 | 浏览/下载:12/0 | 提交时间:2019/04/09
CO2 geologic storage geochemistry dual porosity density-driven convection mobile-immobile model |
| Leakage risks of geologic CO2 storage and the impacts on the global energy system and climate change mitigation 期刊论文
CLIMATIC CHANGE, 2017, 144 (2)
作者: Deng, Hang; Bielicki, Jeffrey M.; Oppenheimer, Michael; Fitts, Jeffrey P.; Peters, Catherine A.
收藏 | 浏览/下载:34/0 | 提交时间:2019/04/09
Carbon capture, utilization and storage Geologic CO2 storage Leakage risk Climate change mitigation Integrated assessment modeling GCAM Carbon tax Representative concentration pathways |
| Dynamic fluid connectivity during steady-state multiphase flow in a sandstone 期刊论文
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2017, 114 (31) : 8187-8192
作者: Reynolds, Catriona A.; Menke, Hannah; Andrew, Matthew; Blunt, Martin J.; Krevor, Samuel
收藏 | 浏览/下载:10/0 | 提交时间:2019/11/27
steady state pore-scale imaging immiscible two-phase flow dynamic connectivity geologic CO2 storage |
| Geological storage of captured carbon dioxide as a large-scale carbon mitigation option 期刊论文
WATER RESOURCES RESEARCH, 2017, 53 (5)
作者: Celia, Michael A.
收藏 | 浏览/下载:2/0 | 提交时间:2019/04/09
carbon capture and storage geologic carbon storage carbon mitigation multiphase flow in porous media low-carbon energy systems CCS and risk assessment |
| Impact of CO2 on the Evolution of Microbial Communities Exposed to Carbon Storage Conditions, Enhanced Oil Recovery, and CO2 Leakage 科技报告
来源:US Department of Energy (DOE). 出版年: 2016
作者: Gulliver, Djuna
收藏 | 浏览/下载:13/0 | 提交时间:2019/04/05
Geologic carbon storage carbon sequestration subsurface microbial communities OSTI Subject Areas: 42 - ENGINEERING 54 - ENVIRONMENTAL SCIENCES 60 - APPLIED LIFE SCIENCES |
| Sample Annual Report for SCC 科技报告
来源:US Department of Energy (DOE). 出版年: 2014
作者: Strazisar, Brian; Guthrie, George
收藏 | 浏览/下载:19/0 | 提交时间:2019/04/05
carbon storage geologic storage monitoring verification and accounting MVA simulation and risk assessment storage capacity injectivity storage permanence CO2 thermodynamic properties CO2 reservoirs RCSP |
| A Historical Evaluation of the U15 Complex, Nevada National Security Site, Nye County, Nevada 科技报告
来源:US Department of Energy (DOE). 出版年: 2014
作者: Drollinger, Harold; Holz, Barbara A; Bullard, Thomas F; Goldenberg, Nancy G; Ashbaugh, Laurence J; Griffin, Wayne R
收藏 | 浏览/下载:23/0 | 提交时间:2019/04/05
This report presents a historical evaluation of the U15 Complex on the Nevada National Security Site (NNSS) in southern Nevada. The work was conducted by the Desert Research Institute at the request of the U.S. Department of Energy National Nuclear Security Administration Nevada Field Office and the U.S. Department of Defense Defense Threat Reduction Agency. Three underground nuclear tests and two underground nuclear fuel storage experiments were conducted at the complex. The nuclear tests were Hard Hat in 1962 Tiny Tot in 1965 and Pile Driver in 1966. The Hard Hat and Pile Driver nuclear tests involved different types of experiment sections in test drifts at various distances from the explosion in order to determine which sections could best survive in order to design underground command centers. The Tiny Tot nuclear test involved an underground cavity in which the nuclear test was executed. It also provided data in designing underground structures and facilities to withstand a nuclear attack. The underground nuclear fuel storage experiments were Heater Test 1 from 1977 to 1978 and Spent Fuel Test - Climax from 1978 to 1985. Heater Test 1 was used to design the later Spent Fuel Test - Climax experiment. The latter experiment was a model of a larger underground storage facility and primarily involved recording the conditions of the spent fuel and the surrounding granite medium. Fieldwork was performed intermittently in the summers of 2011 and 2013 totaling 17 days. Access to the underground tunnel complex is sealed and unavailable. Restricted to the surface four buildings four structures and 92 features associated with nuclear testing and fuel storage experiment activities at the U15 Complex have been recorded. Most of these are along the west side of the complex and next to the primary access road and are characteristic of an industrial mining site albeit one with scientific interests. The geomorphological fieldwork was conducted over three days in the summer of 2011. It was discovered that major modifications to the terrain have resulted from four principal activities. These are road construction and maintenance mining activities related to development of the tunnel complex site preparation for activities related to the tests and experiments and construction of drill pads and retention ponds. Six large trenches for exploring across the Boundary geologic fault are also present. The U15 Complex designated historic district 143 and site 26NY15177 is eligible to the National Register of Historic Places under Criteria A C and D of 36 CFR Part 60.4. As a historic district and archaeological site eligible to the National Register of Historic Places the Desert Research Institute recommends that the area defined for the U15 Complex historic district 143 and site 26NY15117 be left in place in its current condition. The U15 Complex should also be included in the NNSS cultural resources monitoring program and monitored for disturbances or alterations. |
| CO2-driven Enhanced Oil Recovery as a Stepping Stone to What? 科技报告
来源:US Department of Energy (DOE). 出版年: 2010
作者: Dooley, James J.; Dahowski, Robert T.; Davidson, Casie L.
收藏 | 浏览/下载:18/0 | 提交时间:2019/04/05
carbon dioxide capture and storage geologic CO2 storage CO2-driven enhanced oil recovery climate change greenhouse gas emissions mitigation |
