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CO2 capture and sequestration
Effective Cementing Solutions for CCS Wells is a half-day Training Course that will focus on the challenges of completing and cementing Carbon Capture and Storage wells. For CCS wells, the design should start with the completion size required to achieve the desired CO2 injection rate. Dual containment is essential; the second barrier must not only be designed for the corrosive environment but the second barrier and its associated equipment must be periodically inspected or tested. The differences between CCS wells and conventional oil and gas wells require a different approach to well design. If CCS wells were to be designed using established methods for oil and gas, the wells might fail to maintain integrity to prevent undetected migration of stored CO2.
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Health, Safety, Environment & Sustainability > Environment > Climate change (0.91)
- Well Drilling > Casing and Cementing (0.91)
- (2 more...)
Petroleum Engineering, University of Houston, 2. Metarock Laboratories, 3. Department of Earth and Atmospheric Sciences, University of Houston) 16:00-16:30 Break and Walk to Bizzell Museum 16:30-17:30 Tour: History of Science Collections, Bizzell Memorial Library, The University of Oklahoma 17:30-19:00 Networking Reception: Thurman J. White Forum Building
- Research Report > New Finding (0.93)
- Overview (0.68)
- Geology > Geological Subdiscipline > Geomechanics (1.00)
- Geology > Mineral (0.72)
- Geology > Rock Type > Sedimentary Rock > Carbonate Rock (0.68)
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- Geophysics > Borehole Geophysics (1.00)
- Geophysics > Seismic Surveying > Seismic Modeling > Velocity Modeling (0.93)
- Well Completion > Hydraulic Fracturing (1.00)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Reservoir Description and Dynamics > Reservoir Simulation (1.00)
- (20 more...)
The SEG Research Committee CO2 Sub-Committee is happy to announce the Geophysical Research for Gigatonnes CO2 Storage workshop scheduled for 14โ19 July 2024 at the Colorado School of Mines in Golden, Colorado, USA. This SEG and Geologic Carbon Storage (GCS) summer research workshop is dedicated to advancing geophysics in the context of GCS. It emphasizes interdisciplinary research and best practices with a focus on site characterization and monitoring, site integrity, and risks related to injectivity, and seals and faults. The workshop's distinctive format encourages networking and open discussions, aiming to cultivate a dynamic knowledge nexus for the secure geological storage of CO2 consistent with governmental regulations and guidelines, and international best practices. With two key segments, the workshop will assess the current status, gaps, and challenges in geophysics for GCS and provide recommendations for regulators and operators, positioning itself as a vital platform for geophysical advancements in GCS.
- Energy (0.38)
- Transportation > Passenger (0.35)
- Transportation > Ground > Road (0.35)
- Automobiles & Trucks > Manufacturer (0.35)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Reservoir Description and Dynamics > Reservoir Characterization > Seismic processing and interpretation (1.00)
- Health, Safety, Environment & Sustainability > Sustainability/Social Responsibility > Sustainable development (1.00)
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The Way Ahead is pleased to announce the addition of 19 new members to our TWA Editorial Board. Comprising SPE young professionals, these dedicated volunteers play a crucial role by crafting articles or collaborating with energy industry experts worldwide to source insightful material. Abdulmalik Ajibade is an artificial intelligence (AI) solutions researcher at OSECUL Nigeria Ltd. He is a certified data analyst and volunteers as a machine learning (ML) engineer at Omdena. He is a winner of the SPE Nigeria Paper Contest for research work in improving production optimization with machine learning.
- Africa > Nigeria (1.00)
- Asia > Middle East > UAE (0.29)
- Energy > Oil & Gas > Upstream (1.00)
- Education > Educational Setting > Higher Education (1.00)
Talos Energy has reached an agreement to sell its carbon capture and storage (CCS) subsidiary to TotalEnergies in a deal valued at 148 million, including cash. The Houston-based independent said the divestment will help repay corporate debt and fund its upstream business which is expected to produce up to 95,000 BOED this year. Timothy Duncan, CEO of Talos, said of the divestiture, "Strong market interest during our capital raise provided the strategic option to fully monetize the business to TotalEnergies, an established global leader in CCS development." He further emphasized that the company is continuing to pursue other merger and acquisition opportunities. The projects included in the transaction form one of the largest CCS portfolios in the US, with an estimated total potential storage capacity of 1.7 billion tons across an area of more than 260,000 acres.
- North America > United States > Texas (0.41)
- North America > United States > Louisiana (0.34)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Health, Safety, Environment & Sustainability > Environment > Climate change (1.00)
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- Information Technology > Knowledge Management (0.83)
- Information Technology > Communications > Collaboration (0.83)
Full Registration Fee (begins from 21 April 2024 onwards) US 1690.5 (Member) US 1942.5 (Non-member) Written notice received by 20 April 2024 entitles registrants to a full refund of the registration fee minus US 50 for processing. No refunds will be issued after 20 April 2024. Substitutions are permissible with written approval by the event organizers. Notify Anneke de Klerk ([email protected]) immediately to request a substitution. The workshop will be of interest to geophysicist, reservoir engineers, geologists, asset engineers, regulatory bodies, researchers/academia.
- Reservoir Description and Dynamics > Unconventional and Complex Reservoirs > Carbonate reservoirs (0.40)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (0.40)
Coffee Break - 15 min Panel 1 - Making CO2 storage projects commercially feasible: CCS project alone is a huge CAPEX. What technical options do we have for vertical integration to offset the costs? Panel 2 - Risk Management in CO2 storage projects: What can go wrong from capture to storage and what options we have to control? An Overview of Occidental's Projects, Geophysical Technologies, Keynote and Challenges Seismic Inversion to reduce uncertainties in a Central Oman saline 9:40 0:20:00 10:00 Fadi Aljiroudi
- Asia > Middle East > Oman (0.26)
- Asia > Middle East > UAE (0.20)
- Asia > Middle East > Saudi Arabia (0.17)
- Geophysics > Seismic Surveying > Passive Seismic Surveying (0.49)
- Geophysics > Seismic Surveying > Seismic Modeling > Velocity Modeling (0.35)
- Geophysics > Time-Lapse Surveying > Time-Lapse Seismic Surveying (0.34)
- Geophysics > Seismic Surveying > Borehole Seismic Surveying > Vertical Seismic Profile (VSP) (0.30)
- Energy > Oil & Gas > Upstream (1.00)
- Government > Regional Government > Asia Government > Middle East Government (0.35)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Reservoir Description and Dynamics > Reservoir Characterization > Seismic processing and interpretation (1.00)
- Health, Safety, Environment & Sustainability > Environment > Climate change (1.00)
Monitoring stored CO2 in carbon capture and storage projects is crucial for ensuring safety and effectiveness. We introduce DeepNRMS, a novel noise-robust method that effectively handles time-lapse noise in seismic images. The DeepNRMS leverages unsupervised deep learning to acquire knowledge of time-lapse noise characteristics from pre-injection surveys. By utilizing this learned knowledge, our approach accurately discerns CO2-induced subtle signals from the high-amplitude time-lapse noise, ensuring fidelity in monitoring while reducing costs by enabling sparse acquisition. We evaluate our method using synthetic data and field data acquired in the Aquistore project. In the synthetic experiments, we simulate time-lapse noise by incorporating random near-surface effects in the elastic properties of the subsurface model. We train our neural networks exclusively on pre-injection seismic images and subsequently predict CO2 locations from post-injection seismic images. In the field data analysis from Aquistore, the images from pre-injection surveys are utilized to train the neural networks with the characteristics of time-lapse noise, followed by identifying CO2 plumes within two post-injection surveys. The outcomes demonstrate the improved accuracy achieved by the DeepNRMS, effectively addressing the strong time-lapse noise.
- Geophysics > Time-Lapse Surveying > Time-Lapse Seismic Surveying (1.00)
- Geophysics > Seismic Surveying > Seismic Processing (1.00)
- Geophysics > Seismic Surveying > Seismic Modeling > Velocity Modeling (0.93)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Reservoir Description and Dynamics > Reservoir Characterization > Seismic processing and interpretation (1.00)
- Reservoir Description and Dynamics > Formation Evaluation & Management > Seismic (four dimensional) monitoring (1.00)
- (2 more...)
The S-Hub consortium, consisting of ExxonMobil Asia Pacific and Shell Singapore, has been selected to work with the government of Singapore as lead developers for a cross-border carbon capture and storage (CCS) project. S-Hub and the Singapore Economic Development Board (EDB) signed a memorandum of understanding in December to coordinate the planning and development of a CCS project, capable of capturing and permanently storing at least 2.5 million tons of carbon dioxide a year, by 2030. Commitment to proceed will be subject to definitive agreements between the parties. Capturing 2.5 million tons is roughly equivalent to replacing approximately 1 million gasoline-powered cars with electric vehicles. "Carbon capture and storage has the potential to be a key decarbonization pathway for Singapore, especially for sectors with hard-to-abate emissions such as energy and chemicals, power, and waste," said Lim Wey-Len, executive vice president for the EDB.
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (1.00)
- Health, Safety, Environment & Sustainability > Environment > Climate change (1.00)