Abstract
Tight sandstone reservoirs are often produced by shutting in the well and inducing imbibition. However, by adopting current reservoir classifications, the heterogeneity of reservoirs cannot be properly treated. Based upon the analysis of the imbibition curves and mercury intrusion porosimetry tests, Chang-7 tight sandstone reservoirs were classified into three categories according to the newly proposed standards. Imbibition tests demonstrated that for the first category, imbibition and drainage occurred continuously and never reached the plateau within the experiment duration. It was suggested that a longer shut-in time favors the production of oil. For the second category, a steady state for imbibition was reached and a shut-in time as short as three days resulted in a high imbibition rate. For the third category, a plateau was reached for the first time and imbibition restarted until a steady state was reached. The average shut-in time for the third category was eight days. Compatibility between reservoir characteristics and a soaking development regime based upon the proposed classification methods effectively enhances the oil recovery efficiency of formations with distinct petrophysical properties. This provides insight into the classification methods of tight sandstone reservoirs.
Highlights
IntroductionOil production from conventional resources is declining gradually, yet unconventional resources demonstrate great potential [1,2]
The demand for crude oil grows rapidly in pace with the continuous development of industry.Oil production from conventional resources is declining gradually, yet unconventional resources demonstrate great potential [1,2]
Cores retrieved from Yanchang Formation Chang-7 tight sandstone reservoirs were utilized to conduct spontaneous imbibition tests
Summary
Oil production from conventional resources is declining gradually, yet unconventional resources demonstrate great potential [1,2]. 2300 billion barrels of oil equivalent (BOE) [4,5]. This could alleviate the concerns about the future energy scarcity [6]. In China, tight oil reserves are widely distributed in the Ordos, Junggar, Sichuan, and Songliao Basins, with an estimated 147 billion barrels in total [7,8]. Tight oil and gas are adsorbed or are free inside source rocks or neighboring reservoir rocks such as tight sandstone or carbonate that have not undergone long-distance migration [9]. Despite the large potential of unconventional resources like tight oil and gas, the exploration and production
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