As the decline of conventional oil production due to the running out of new basins and the increase of exploitation costs, global interest will shift to the various unconventional resource. In the face of increasing environmental concerns, the development of unconventional resources is expected to help meet growing oil and gas production without increasing emissions. Low-carbon technologies are those that emit little or no net CO2 emissions. In the development process, how low-carbon technologies can be used to reduce CO2 emissions and improve CO2 use and storage is the key factor in achieving carbon neutrality.
This collection will feature the latest achievements, in theory, technology, and application in the development of unconventional resources. The goal of this collection is to provide a high-level platform for sharing innovations and insights in the field. It will analyze the current changes, possible solutions, and potential opportunities in the development of unconventional resources. Through these studies, we can explore ways to apply advanced theories and technologies to improve the production of shale oil, shale gas, tight gas, and heavy oil reservoirs.
We welcome all types of manuscripts, including original research articles, review articles, and perspectives. With respect to the above topics, original contributions are solicited from potential researchers in academia as well as the industry as potential authors in the following areas, but not limited to:
1. Improving the recovery of unconventional reservoirs
2. Gas Injection
3. carbon dioxide storage mechanism
4. Novel technologies for unconventional oil and gas recovery
5. Unconventional Stimulation and Operational Efficiency
6. Advanced Petrophysical Characterization
7. In situ upgrading technology
8. Fluid Characterization
9. Reservoir Simulation and Numerical Modelling
10. The application of artificial intelligence in oil and gas reservoir development.
As the decline of conventional oil production due to the running out of new basins and the increase of exploitation costs, global interest will shift to the various unconventional resource. In the face of increasing environmental concerns, the development of unconventional resources is expected to help meet growing oil and gas production without increasing emissions. Low-carbon technologies are those that emit little or no net CO2 emissions. In the development process, how low-carbon technologies can be used to reduce CO2 emissions and improve CO2 use and storage is the key factor in achieving carbon neutrality.
This collection will feature the latest achievements, in theory, technology, and application in the development of unconventional resources. The goal of this collection is to provide a high-level platform for sharing innovations and insights in the field. It will analyze the current changes, possible solutions, and potential opportunities in the development of unconventional resources. Through these studies, we can explore ways to apply advanced theories and technologies to improve the production of shale oil, shale gas, tight gas, and heavy oil reservoirs.
We welcome all types of manuscripts, including original research articles, review articles, and perspectives. With respect to the above topics, original contributions are solicited from potential researchers in academia as well as the industry as potential authors in the following areas, but not limited to:
1. Improving the recovery of unconventional reservoirs
2. Gas Injection
3. carbon dioxide storage mechanism
4. Novel technologies for unconventional oil and gas recovery
5. Unconventional Stimulation and Operational Efficiency
6. Advanced Petrophysical Characterization
7. In situ upgrading technology
8. Fluid Characterization
9. Reservoir Simulation and Numerical Modelling
10. The application of artificial intelligence in oil and gas reservoir development.
