Sandstone Porosity Evolution and Reservoir Formation Models of the Paleogene Huagang Formation in Yuquan Structure of West Lake Sag, East China Sea Basin

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Minerals Pub Date : 2024-08-31 DOI:10.3390/min14090899
Yonghuang Cai, Zhengxiang Lv, Yuanhua Qing, Cheng Xie, Bingjie Cheng, Zheyuan Liao, Bing Xu
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Abstract

The West Lake Sag is abundant in oil and gas reserves, primarily in the Huagang Formation reservoir which serves as the primary source of production. The level of exploration is rather high, but there are still some unresolved issues, such as an unclear understanding of pore evolution features and reservoir growth mode. To tackle the aforementioned problems, this study employs optical microscopic examination, scanning electron microscope analysis, inclusion analysis, isotope analysis, X-ray diffraction analysis, and other techniques to elucidate the primary factors governing reservoir development and establish an analytical model regarding the cause of the sandstone reservoir. The results are as follows: (1) The sandstone reservoirs of the Huagang Formation of the Yuquan (abbreviated to YQ) Structure are now in the mesomorphic A stage as a whole, and minerals such as 4-phase authigenic quartz, 2-phase illite, 2-phase chlorite, 1-phase kaolinite, 1-phase ammonite mixing layer and 2-phase carbonate were formed during the diagenesis. (2) Feldspar and carbonate solution pores make up the majority of the reservoir space. About 10% of the porosity is made up of carbonate solution pores, which are the most prevalent reservoir space. Carbonate solution pores are primarily made up of metasomatic carbonate solution pores and cemented carbonate solution pores. Feldspar solution pores come next, contributing roughly 6.2% of the porosity. At 1.8%, residual intergranular holes are the least common. (3) The four main processes listed below are responsible for the creation of pores in the sandstone of the Huagang creation. The early carbonate cements resist the destruction of mechanical compaction and effectively preserve intergranular volume. The high content of feldspar provided a material basis for later dissolution. Early chlorite surrounding the edges of particles reduced the damage of authigenic minerals to porosity. The faults and cracks formed by the later structural inversion connected to the acidic water in the atmosphere, causing the dissolution of carbonate minerals and feldspar in the sandstone of the Huagang Formation. (4) Carbonate dissolution + feldspar dissolution type, carbonate dissolution type, and feldspar dissolution type are the three main types of reservoir formation in the Huagang Formation; the first two types mainly develop in the Upper Huagang Formation, while the latter mainly develops in the lower part of the Huagang Formation. The research results are conducive to the establishment of a geological prediction model for high-quality reservoirs of different geneses in the Huagang Formation and promote the exploration process of deep-seated hydrocarbons in the West Lake Sag.
东海盆地西湖相玉泉构造古近系华岗地层砂岩孔隙度演化及储层形成模型
西湖相思油气储量丰富,主要分布在华岗地层储层中,该储层是西湖相思的主要产地。虽然勘探水平较高,但仍存在一些尚未解决的问题,如对孔隙演化特征和储层生长模式的认识不清。针对上述问题,本研究采用光学显微镜检查、扫描电子显微镜分析、包裹体分析、同位素分析、X 射线衍射分析等技术,阐明了储层发育的主要因素,建立了砂岩储层成因分析模型。研究结果如下(1)玉泉(简称玉泉)构造华岗层砂岩储层目前整体处于中生A期,成岩过程中形成了4相自生石英、2相伊利石、2相绿泥石、1相高岭石、1相芒硝混合层和2相碳酸盐等矿物。(2)长石和碳酸盐溶液孔隙占储层空间的绝大部分。约10%的孔隙度由碳酸盐溶液孔隙构成,这是最普遍的储层空间。碳酸盐溶液孔隙主要由变质碳酸盐溶液孔隙和胶结碳酸盐溶液孔隙组成。其次是长石溶蚀孔隙,约占孔隙度的 6.2%。残余晶间孔最少,仅占 1.8%。(3)下面列出的四个主要过程是造成花岗岩砂岩孔隙形成的原因。早期的碳酸盐胶结物能抵抗机械压实的破坏,有效地保持晶间体积。长石的高含量为后来的溶解提供了物质基础。颗粒边缘环绕的早期绿泥石减少了自生矿物对孔隙度的破坏。后期构造反转形成的断层和裂隙与大气中的酸性水相连,导致华岗地层砂岩中碳酸盐矿物和长石的溶解。(4)碳酸盐溶解+长石溶解型、碳酸盐溶解型、长石溶解型是华岗地层储层形成的三种主要类型,前两种类型主要发育在华岗地层上部,后者主要发育在华岗地层下部。研究成果有利于建立花岗地层不同成因优质储层的地质预测模型,推动西湖相深层油气勘探进程。
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来源期刊
Minerals
Minerals MINERALOGY-MINING & MINERAL PROCESSING
CiteScore
4.10
自引率
20.00%
发文量
1351
审稿时长
19.04 days
期刊介绍: Minerals (ISSN 2075-163X) is an international open access journal that covers the broad field of mineralogy, economic mineral resources, mineral exploration, innovative mining techniques and advances in mineral processing. It publishes reviews, regular research papers and short notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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