Seepage system of oil-gas and its exploration in Yinggehai Basin located at northwest of South China Sea

• Published in: Journal of Natural Gas Geoscience Vol. 2; no. 1; pp. 29 - 41
• Main Authors: He, Jiaxiong, Zhang, Wei, Lu, Zhenquan
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2017; KeAi Communications Co., Ltd
• Subjects: Macro-seepage/micro-seepage; Oil-gas seepage system; Outflow of oil-gas/gas chimney; South China Sea; Trap conditions; Yinggehai Basin; Trap conditions; South China Sea; Yinggehai Basin; Oil-gas seepage system; Macro-seepage/micro-seepage; Outflow of oil-gas/gas chimney
• ISSN: 2468-256X; 2468-256X
• DOI: 10.1016/j.jnggs.2017.01.001

Seepage systems of oil-gas in Yinggehai Basin are divided into two types, namely: “micro-seepage”, which is presented by gas chimneys and pockmarks; and “macro-seepage”, which is also called oil-gas outflow; and, in addition, the combination of the two basic types. Among the oil seepage systems, the combined seepage system at Yingdong Slope of Yinggehai Basin is the most eye-catching, and gas chimneys and pockmarks micro-leakage systems in mud diapir zones in the central part of the basin are very common. Both the indications of large-scale oil-gas outflow at Yingdong Slope, which have been booming for a hundred years; and the occurrence of pockmarks at the central mud diapir belt, along with the chaotic seismic reflection of widely-distributed shallow gas chimneys—have shown that hydrocarbon in this area is sufficient and oil-gas is now in dynamic equilibrium of the processes of accumulation, migration, gathering and dispersing. It builds up good conditions for the accumulation, migration, gathering and reserving of oil and gas. However, it must be noted that the results of oil-gas exploration at Yingdong Slope didn't turn out to be satisfactory, despite the presence of oil-gas outflow and gas chimney combined seepage systems. So, strengthen synthesized analysis and study on oil-gas seepage systems and on the conditions for accumulation, migration, gathering and dispersing; the forecasting and evaluation to the advantageous conditions for enriched oil and gas zones; and trap preservation in accordance with the dynamic balance theories; are of significant importance for purposes of exploration.