Author:
Fang Xiaoyu,Zhang Jinfeng,Luo Junsheng,Xiong Pengfei,Liao Jin,Yao Zhe,Li Xushen,Zhu Jitian
Abstract
Abstract
This paper makes full use of the high-precision three-dimensional seismic data in this area, combined with the differences in the source supply, migration and accumulation mode and occurrence characteristics of hydrate gas, analyzes and summarizes the gas hydrate migration and accumulation reservoir forming model in Qiongdongnan Basin. The hydrate migration and accumulation reservoir forming models in Qiongdongnan Basin are preliminarily divided into three categories: lower-generation and upper-storage type, self-generation and self-storage type and compound mixed type. The first two categories are further divided into five sub categories, of which the lower-generation and upper-storage types are divided into four sub categories: gas chimney dominated type, mud diapir dominated type, micro-fracture dominated type and fault dominated type. The self-generation and self-storage type can be regarded as: shallow in-situ migration and accumulation type.
Subject
Computer Science Applications,History,Education
Reference8 articles.
1. Geological and geophysical features of and controls on occurrence and accumulation of gas hydrates in the first offshore gas-hydrate production test region in the Shenhu area, Northern South China Sea;Zhang,2001
2. The Thermal Effect of Submarine Mud Volcano Fluid and Its Influence on the Occurrence of Gas Hydrates;Wan;Journal of Marine Science and Engineering,2022
3. Upward shifts in the southern Hydrate Ridge gas hydrate stability zone following postglacial warming, offshore Oregon;Bangs;Journal of Geophsical Research,2005
4. Dissociation of gas hydrates by hydrocarbon migration and accumulation-derived slope failures: An example from the south china sea;Wan;Geoscience Frontiers,2022
5. The formation mechanism of mud diapirs and gas chimneys and their relationship with natural gas hydrates: insights from the deep-water area of Qiongdongnan Basin, northern South China Sea;Zhang;International Geology Review,2020