文章检索
首页» 过刊浏览» 2024» Vol.9» lssue(3) 383-393     DOI : 10.3969/ j.issn.2096-1693.2024.03.028
最新目录| | 过刊浏览| 高级检索
基于伍德合金多级压力注入实验的致密砂岩储层孔缝充注序列研究
刘冀蓬, 萧汉敏, 姜振学, 唐相路, 徐明帅
1 中国石油大学( 北京) 油气资源与工程全国重点实验室,北京 102249 2 中国石油大学( 北京) 非常规油气科学技术研究院,北京 102249 3 中国石油勘探开发研究院,北京 100083
Study of pore-fracture filling sequences in tight reservoirs based on multi-stage pressure injection experiments with Wood’s alloy
LIU Jipeng, XIAO Hanmin, JIANG Zhenxue, TANG Xianglu, XU Mingshuai
1 State Key Laboratory of Petroleum Resources and Engineering, China University of Petroleum-Beijing, Beijing 102249, China 2 Unconventional Petroleum Research Institute, China University of Petroleum-Beijing, Beijing 102249, China 3 Research Institute of Exploration and Development, PetroChina, Beijing 100083, China

全文:   HTML (1 KB) 
文章导读  
摘要  松辽盆地北部白垩系泉头组扶余致密砂岩储层发育微纳米级孔隙、微裂缝,且孔缝结构复杂,导致成藏期致密油气在不同类型储集空间中的充注顺序不清,增加了致密油气的勘探开发难度。本文针对致密砂岩储层中不同充注压力条件下致密油的充注特征开展定量研究,结合大视域拼接扫描电镜与矿物面扫技术,提出了一种基于孔隙-微裂缝组合的致密油充注规律微观评价方法。研究表明,区内泉头组扶余致密砂岩储层主要发育3种孔缝组合类型:粒间孔-黏土矿物收缩缝、粒间孔-脆性矿物粒间缝及黏土矿物晶间孔-收缩缝组合。通过将具有高温流变性质的伍德合金在不同压力下注入岩心,可以观察到合金在不同孔缝组合类型中的注入随注入压力提升而表现出有序性,粒间孔、缝的充注优先级明显高于黏土矿物相关孔缝,伍德合金的注入效率呈明显的先快速增大后缓慢增大最终趋于稳定的抛物线形态。依据伍德合金与原油的性质特征,将注入压力进行了等效转化,还原了地层条件下致密油的微观充注过程,据此建立了致密储层孔缝序列充注模式。在高源储压差条件下,致密油能够充注至纳米级的黏土矿物晶间孔-收缩缝中,随源储压差降低,致密油逐渐难以充注至纳米级孔缝中。当源储压差降至最低时,致密油仅能通过渗吸的方式通过宽大的孔间连通喉道进入微米级粒间孔及连通性较好的铸模孔中。本研究将流体注入与可视化技术相结合进行致密储层的储集空间多尺度评价,为致密储层微观甜点评价及高效开发提供参考。
服务
把本文推荐给朋友
加入我的书架
加入引用管理器
关键词 : 孔缝组合,伍德合金,多级压力注入,充注序列,致密储层
Abstract

The development of micro-nano-scale pores and microfractures in the Fuyu tight sandstone reservoirs of the Cretaceous Quantou Formation in the northern part of the Songliao Basin, as well as the complex structure of the pores and fractures, leads to the unclear sequence of tight oil and gas filling in different types of reservoir spaces during the formation period, which increases the difficulty of exploration and development of tight oil and gas. In this paper, a quantitative study is conducted on the filling characteristics of tight oil under different filling pressures in tight sandstone reservoirs, and a microscopic evaluation method of tight oil filling patterns based on pore-microfracture combinations is proposed by combining large field-of-view splicing swept electron microscopy and mineral surface scanning technology. The study shows that the Fuyu tight sandstone reservoirs of the Quantou Formation in the area can be classified into three main types of pore-fracture combinations: intergranular pore-clay mineral shrink fractures, intergranular pore-brittle mineral intergranular fractures and clay mineral intergranular pore-shrink fractures combinations. By injecting Wood’s alloy with high-temperature rheological properties into the core at different pressures, it can be observed that the injection of the Wood’s alloy in the different pore-fracture combinations shows orderliness with the increase of injection pressure, and the filling priority of the intergranular pores and fractures is obviously higher than that of the clay mineral-related pores and fractures, and the injection efficiency of Wood’s alloy shows an obvious parabolic pattern of rapid increase first, followed by a slow increase that tends to be stable eventually. Based on the properties of Wood’s alloy and crude oil, the injection pressure was equivalently transformed to simulate the microscopic filling process of tight oil under stratigraphic conditions, and accordingly the pore and fracture sequence filling model of a tight reservoir was established. Under the condition of high source storage pressure difference, the tight oil can be filled into the nanoscale intergranular pore-shrink fractures of clay minerals, and with the decrease of source storage pressure difference, the tight oil is gradually difficult to be filled into the nanoscale pore and fractures. When the source storage pressure difference is reduced to the lowest, the tight oil can only enter the micron-sized intergranular pores and the well-connected mould pores through the wide intergranular connecting throat by means of osmosis. This study combines the fluid injection and visualization techniques for the multi-scale evaluation of reservoir space in tight reservoirs, which is of great significance for the evaluation of microscopic sweet spots and efficient development of tight reservoirs.


Key words: pore-fracture combination; Wood’s alloy; multi-stage pressure injection; filling sequence; tight reservoir
收稿日期: 2024-06-28     
PACS:    
基金资助:国家自然科学基金(42272137)、中国石油天然气股份有限公司“十四五”科技专项(2021DJ2201) 联合资助
通讯作者: jiangzhenxuecup@126.com
引用本文:   
刘冀蓬, 萧汉敏, 姜振学, 唐相路, 徐明帅. 基于伍德合金多级压力注入实验的致密砂岩储层孔缝充注序列研究. 石油科学通报, 2024, 03: 383-393 LIU Jipeng, XIAO Hanmin, JIANG Zhenxue, TANG Xianglu, XU Mingshuai. Study of pore-fracture filling sequences in tight reservoirs based on multi-stage pressure injection experiments with Wood’s alloy. Petroleum Science Bulletin, 2024, 03: 383-393.
链接本文:  
版权所有 2016 《石油科学通报》杂志社