Comprehensive analysis and effective treatment of plugging in shale gas wells: From composition identification to removal agent optimization.
Yujia Xiong, Jun Xin, Chao Su, Lei Liang, Qinghua Xiao, Haifeng Ye, Zilai Mei
Abstract
Open AccessWith the extensive exploitation of shale gas fields in southern Sichuan, China, the Weiyuan Area - a key production zone within this region - has experinced a growing gas well plugging problem, which significantly hampers production efficiency. This study presents a comprehensive analysis of plugging problems in this area. Plugging samples were obtained from typically affected gas wells and subjected to a suite of analytical techniques. Results indicated that plugging materials were predominantly inorganic, primarily comprising iron-based impurities and mineral scale deposits, while organic components-present in minor proportions-primarily composed of long-chain alkanes. The formation of these plugs is attributed to downhole corrosion, high-salinity formation water, and complex chemical interactions occurring within the wellbore. In response, specialized plugging removal agents were developed: an organic composite acid-organic solvent system achieved up to 98% dissolution efficiency for iron oxide-dominated plugs; a chelating agent based on CDTA was optimized for iron sulfide-based plugging; and the DTPA-based system exhibited superior dissolution efficiency for barium sulfate/calcium carbonate scale deposits. This research provides a scientific basis for effectively mitigating plugging issues in comparable shale gas fields.