| Key Data Set Information | |
| Location | XJ-CN |
| Geographical representativeness description | Tarim Basin |
| Reference year | 2022 |
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| Use advice for data set | When utilizing this data set for life cycle assessment or related geological and industrial applications, ensure that the data is applicable to the specific geological context of interest. Considerations should be made for the depth and geological conditions of the marine carbonate rock formations. The methodology and results should appropriately capture the complex interactions and evolutionary history of hydrocarbon systems within the Cambrian ultra-deep source-circle-reservoirs. Caution must be taken when extrapolating findings to different basins or formations without adequate similarity in characteristics. Users should integrate results with fluid streamline simulation outcomes to enhance the accuracy and relevance of predictive exploration models. |
| Technical purpose of product or process | The dynamic simulation technology described is used for geoscientific analysis in the Tarim Basin's Cambrian ultra-deep petroleum system. It is specifically applied to understand the complex characteristics of oil and gas generation, migration, accumulation, and adjustment in source-circle-reservoir systems at depths of 6000-10000 meters in marine carbonate rocks. The intent is to provide a basis for future exploration and exploitation of ultra-deep oil and gas resources by simulating the thermal evolution, generation, and migratory behavior of hydrocarbons in different geological profiles. |
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| General comment on data set | In view of the complex reservoir-forming characteristics of the Cambrian ultra-deep petroleum system in Tarim Basin, the evolution process of "source-circle-reservoir" of Cambrian is discussed by using dynamic simulation technology, and the evolution history of "generation-migration-accumulation-adjustment" of oil and gas in the ultra-deep petroleum system is revealed |
| Copyright | No |
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