Two petroleum systems charge the YA13-1 gas field in Yinggehai and Qiongdongnan basins, South China Sea
Two petroleum systems charge the YA13-1 gas field in Yinggehai and Qiongdongnan basins, South China Sea
AAPG Bulletin (May 1998) 82 (5A): 757-772
- anticlines
- biomarkers
- C-13/C-12
- carbon
- chemical composition
- condensates
- fluid inclusions
- folds
- genesis
- inclusions
- isotope ratios
- isotopes
- maturity
- migration
- mineral composition
- natural gas
- North Pacific
- Northwest Pacific
- oil and gas fields
- overgrowths
- Pacific Ocean
- paleosalinity
- permeability
- petroleum
- petroleum accumulation
- porosity
- pressure
- pyrolysis
- Qiongdongnan Basin
- reservoir rocks
- Rock-Eval
- source rocks
- South China Sea
- stable isotopes
- structural traps
- thermal history
- traps
- West Pacific
- Yinggehai Basin
- Meishan Formation
- Lingshui Formation
- Ying-Qiong Basin
- Yanan Depression
- YA13-1 Field
Restoring burial history, correlating maturities and biomarkers of gas-condensate source rocks, measuring fluid inclusions, and stable carbon isotope data show that two petroleum systems charge the YA13-1 gas field in Yinggehai and Qiongdongnan basins in the South China Sea. The first source came from the Yanan depression in Qiongdongnan basin, at a depth of 4450 m, with the critical moment of 5.8 Ma. The second source came from the Yinggehai basin, at a depth of 4700 m, with the critical moment of 2.0 Ma. The YA13-1 drape anticline trap formed at 10.5 Ma, which was earlier than gas migration and accumulation. The Meishan Formation, with 7-10 MPa (1015-1450 psi) expelling pressure and 49-66 MPa (7105-9570 psi) overpressure combined, effectively seals YA13-1 gases. The reservoir of Lingshui Formation sands has average values of 14.9% porosity and 213X10 (super -3) micrometers (super 2) permeability because the weathering of the feldspathic sands at the end of the Oligocene, the preserving of K-feldspar and quartz overgrowths, and dissolution of carbonate cements by organic acid enhanced the reservoir quality. Consequently, trap formation coincided with gas generation, migration, and accumulation.