Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin

Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin

Based on analysis on the macroscopic and microcosmic features of doloarenite in C layer, sub-member 2, Jia-2 Member of the Jialingjiang Formation in the Moxi gas field, the genetic mechanism of favorable reservoirs in beach facies carbonate rock is established. Primary inter-granular pores are the m...

Full description

Bibliographic Details
Main Authors: Tan Xiucheng, Luo Bing, Li Zhuopei, Ding Xiong, Nie Yong, Wu Xingbo, Zou Juan, Tang Qingsong
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2011-06-01
Series:Petroleum Exploration and Development
Online Access:http://www.sciencedirect.com/science/article/pii/S1876380411600335
id doaj-e890017c932c4ab49a0d5b904b1e1d01
record_format Article
spelling doaj-e890017c932c4ab49a0d5b904b1e1d012021-02-02T06:59:53ZengKeAi Communications Co., Ltd.Petroleum Exploration and Development1876-38042011-06-01383268274Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan BasinTan Xiucheng0Luo Bing1Li Zhuopei2Ding Xiong3Nie Yong4Wu Xingbo5Zou Juan6Tang Qingsong7State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Southwest Petroleum University, Chengdu 610500, China; College of Resource and Environment, Southwest Petroleum University, Chengdu 610500, China; Corresponding authorCollege of Resource and Environment, Southwest Petroleum University, Chengdu 610500, ChinaCollege of Resource and Environment, Southwest Petroleum University, Chengdu 610500, ChinaCollege of Resource and Environment, Southwest Petroleum University, Chengdu 610500, ChinaCollege of Resource and Environment, Southwest Petroleum University, Chengdu 610500, ChinaCollege of Resource and Environment, Southwest Petroleum University, Chengdu 610500, ChinaNorthwest Sichuan Mining District, PetroChina Southwest Oil and Gas Field Company, Jiangyou 621700, ChinaCentral Sichuan Mining District, PetroChina Southwest Oil and Gas Field Company, Suining 629000, ChinaBased on analysis on the macroscopic and microcosmic features of doloarenite in C layer, sub-member 2, Jia-2 Member of the Jialingjiang Formation in the Moxi gas field, the genetic mechanism of favorable reservoirs in beach facies carbonate rock is established. Primary inter-granular pores are the main reservoir spaces in the beach facies carbonates, and have the following key characteristics and identification signs: reservoir development was strictly controlled by the depositional microfacies; main pore types are residual inter-granular pores and dissolved-enlarged residual inter-granular pores; only submarine cement existed in grain contacts; initial compaction led to grains under framework support in line-concave-convex contact; and the burial cement in some separate inter-granular pores being not dissolved. The conservation mechanism of primary inter-granular pores is described as follows: after submarine cementation, the initial compaction created grains with early rim cement under framework support and the throats decreased accordingly; the compaction fluid cementation compressed the beach body's margin, the limited shallow burial cementation in inter-granular pores plugged the throats, and the cementation terminated after the diagenetic fluid reached dissolution-cementation balance. Late burial-dissolution adjusted and optimized early porous strata, which played a secondary role in increasing the reservoir space of each permeable reservoir bodies and did not change the spatiotemporal distribution of this kind of reservoir. Key words: beach facies carbonate, doloarenite, reservoir space, primary inter-granular pore, genetic mechanism, Jialingjiang Formation, Moxi gas fieldhttp://www.sciencedirect.com/science/article/pii/S1876380411600335
collection DOAJ
language English
format Article
sources DOAJ
author Tan Xiucheng
Luo Bing
Li Zhuopei
Ding Xiong
Nie Yong
Wu Xingbo
Zou Juan
Tang Qingsong
spellingShingle Tan Xiucheng
Luo Bing
Li Zhuopei
Ding Xiong
Nie Yong
Wu Xingbo
Zou Juan
Tang Qingsong
Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin
Petroleum Exploration and Development
author_facet Tan Xiucheng
Luo Bing
Li Zhuopei
Ding Xiong
Nie Yong
Wu Xingbo
Zou Juan
Tang Qingsong
author_sort Tan Xiucheng
title Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin
title_short Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin
title_full Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin
title_fullStr Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin
title_full_unstemmed Jia-2 Member doloarenite reservoir in the Moxi gas field, middle Sichuan Basin
title_sort jia-2 member doloarenite reservoir in the moxi gas field, middle sichuan basin
publisher KeAi Communications Co., Ltd.
series Petroleum Exploration and Development
issn 1876-3804
publishDate 2011-06-01
description Based on analysis on the macroscopic and microcosmic features of doloarenite in C layer, sub-member 2, Jia-2 Member of the Jialingjiang Formation in the Moxi gas field, the genetic mechanism of favorable reservoirs in beach facies carbonate rock is established. Primary inter-granular pores are the main reservoir spaces in the beach facies carbonates, and have the following key characteristics and identification signs: reservoir development was strictly controlled by the depositional microfacies; main pore types are residual inter-granular pores and dissolved-enlarged residual inter-granular pores; only submarine cement existed in grain contacts; initial compaction led to grains under framework support in line-concave-convex contact; and the burial cement in some separate inter-granular pores being not dissolved. The conservation mechanism of primary inter-granular pores is described as follows: after submarine cementation, the initial compaction created grains with early rim cement under framework support and the throats decreased accordingly; the compaction fluid cementation compressed the beach body's margin, the limited shallow burial cementation in inter-granular pores plugged the throats, and the cementation terminated after the diagenetic fluid reached dissolution-cementation balance. Late burial-dissolution adjusted and optimized early porous strata, which played a secondary role in increasing the reservoir space of each permeable reservoir bodies and did not change the spatiotemporal distribution of this kind of reservoir. Key words: beach facies carbonate, doloarenite, reservoir space, primary inter-granular pore, genetic mechanism, Jialingjiang Formation, Moxi gas field
url http://www.sciencedirect.com/science/article/pii/S1876380411600335
work_keys_str_mv AT tanxiucheng jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT luobing jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT lizhuopei jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT dingxiong jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT nieyong jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT wuxingbo jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT zoujuan jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
AT tangqingsong jia2memberdoloarenitereservoirinthemoxigasfieldmiddlesichuanbasin
_version_ 1724300274817826816

Similar Items