Evaluation of effective carrier system and function on hydrocarbon accumulation in Gaoyou Sag, Subei Basin, China
来源期刊:中南大学学报(英文版)2013年第6期
论文作者:LI Hao(李浩) GAO Xian-zhi(高先志) MENG Xiao-yan(孟晓燕) ZHAO Yun-long(赵赟龙) ZHANG Ming(张明)
文章页码:1679 - 1692
Key words:effective carrier system; transporting threshold porosity of carrier beds; fluid potential; hydrocarbon migration; Gaoyou Sag
Abstract: Effective carrier system comprises carrier beds which transport hydrocarbons. The spatial and temporal effectiveness of carrier system is identified according to the relevance of hydrocarbon show, hydrocarbon inclusion and sealing ability of fault to hydrocarbons distribution, together with matching relation of activity history of fault and hydrocarbon generation history of source rock. On the basis of the above considerations, transporting ability of effective carrier system can be evaluated using parameters such as fluid potential, porosity and permeability, spatial coefficient of effective pathway as well as activity rate of fault. Additionally, a new concept of “transporting threshold porosity” was proposed. Five styles of effective carrier systems were established in Gaoyou Sag, displaying either layered or zonal distribution characteristics, and transporting time ranges from the sedimentary time of E2d2 to early stage of sanduo uplift. Effective carrier systems can be described to be lowly-efficient and highly-efficient. Major faults (convex or steep fault plane) with activity rate greater than 20 m/Ma and structure ridges of sand layers with spatial coefficient of effective pathway greater than 25% are defined to be highly-efficient carrier beds. Hydrocarbons are concentrated around high-efficient carrier beds and E1f traps of northern shanian area are predicted to have great potential.
LI Hao(李浩)1, GAO Xian-zhi(高先志)1, MENG Xiao-yan(孟晓燕)2, ZHAO Yun-long(赵赟龙)1, ZHANG Ming(张明)3
(1. College of Geosciences, China University of Petroleum, Beijing 102249, China;2. Research Institute of Petroleum Exploration & Development-NORTHWEST (NWGI),PetroChina, Lanzhou 730060, China;3. Geoscicnce Center Greatwall Drilling Company, Beijing 100101, China)
Abstract:Effective carrier system comprises carrier beds which transport hydrocarbons. The spatial and temporal effectiveness of carrier system is identified according to the relevance of hydrocarbon show, hydrocarbon inclusion and sealing ability of fault to hydrocarbons distribution, together with matching relation of activity history of fault and hydrocarbon generation history of source rock. On the basis of the above considerations, transporting ability of effective carrier system can be evaluated using parameters such as fluid potential, porosity and permeability, spatial coefficient of effective pathway as well as activity rate of fault. Additionally, a new concept of “transporting threshold porosity” was proposed. Five styles of effective carrier systems were established in Gaoyou Sag, displaying either layered or zonal distribution characteristics, and transporting time ranges from the sedimentary time of E2d2 to early stage of sanduo uplift. Effective carrier systems can be described to be lowly-efficient and highly-efficient. Major faults (convex or steep fault plane) with activity rate greater than 20 m/Ma and structure ridges of sand layers with spatial coefficient of effective pathway greater than 25% are defined to be highly-efficient carrier beds. Hydrocarbons are concentrated around high-efficient carrier beds and E1f traps of northern shanian area are predicted to have great potential.
Key words:effective carrier system; transporting threshold porosity of carrier beds; fluid potential; hydrocarbon migration; Gaoyou Sag
