Geochemical characteristics and origins of natural gases in Yinggehai and Qiongdongnan Basins of South China Sea [PDF]
Scientific ReportsDF13-2 and YC13-1 are two large gas fields found in Yinggehai and Qiongdongnan Basins, respectively, and the gas-source correlation is a very challenging scientific exercise due to the similarity of their hydrocarbon isotoperatios and gas dryness.
Huang Qianfeng +5 more
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Geochemical characteristics and provenance of the detrital sediments in the junction area of Yinggehai and Qiongdongnan basins, South China Sea [PDF]
Scientific Reports, 2023 Together, the Yinggehai and Qiongdongnan basins have received a large amount of terrigenous sediments, but the provenance evolution of Cenozoic sediments in the two basins remains disputable.
Fulin Meng +5 more
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Sandbox Modeling of Transrotational Tectonics With Changeable Poles: Implications for the Yinggehai Basin [PDF]
Frontiers in Earth Science, 2021 The main formation of the Yinggehai Basin has been related to the rotation of the Indochina block, resulting in large-scale strike-slip motion along the Red River Fault Zone (RRFZ).
Jun Liu +9 more
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Restoration of Neogene paleo-geomorphology of Yinggehai Basin
Shiyou shiyan dizhi, 2020 The Neogene Sanya and Meishan formations are important sequences of source rocks in the Yinggehai Basin. Understanding the paleo-tectonic geomorphology is an important basis for predicting the distribution of source rocks and the potential of oil and gas
Kunze XIAO +6 more
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Geophysical Research Letters, 2023 The Yinggehai Basin (YB) in the northwest of the South China Sea (SCS) has preserved the complete evolution of the Red River Fault (RRF), whose motion over time has largely contributed to shaping the current tectonic framework of the southeastern Tibetan
Lun Li, Shaoping Lu, Rui Gao, Chao Lei
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Natural gas distribution and reservoir-forming law of the Yinggehai Basin, China
Dizhi lixue xuebao, 2021 Oil-gas exploration in the Yinggehai basin shows, the formation, distribution and preservation of oil and gas resources are closely related to the overpressure system in the diapir zone.
WU Xunda +4 more
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Gas generation potential of Oligocene source rocks in Yinggehai Basin
Natural Gas Industry BFor many years, natural gas exploration in Yinggehai Basin has mainly focused on Miocene source rocks, and several exploration successes and insights have been achieved.
Xiaoxiao Guo +5 more
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Wave Velocity in Sandstone and Mudstone under High Temperature and Overpressure in Yinggehai Basin
Energies, 2022 Wave velocity under different pressure and temperature (PT) conditions plays an important role in the exploration of oil and gas reservoirs. We obtained the mineral composition and porosity of 20 underground sandstone and mudstone samples in Yinggehai ...
Zichun Liu +3 more
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Investigation of the Law of Natural Gas Phase Behavior during the Migration and Reservoir Formation
Geofluids, 2022 It is of great significance to understand the phase regime of natural gas migration under high temperature and high pressure in the DF1-1 structure of Yinggehai Basin, South China Sea, to predict natural gas accumulation and evaluate resource reserves ...
Longlong Li +3 more
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Energy Science & Engineering, 2022 The Yinggehai Basin (YGH) in the South China Sea is a Cenozoic, high‐temperature, and high‐pressure basin. Exploration and development of natural gas resources in the YGH show that owing to the diapir structures make the formation pressure system is ...
Honglin Huang +7 more
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