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318-337
DOI
: 10.3969/j.issn.2096-1693.2024.02.023
水合物阻聚剂研究进展
付顺康, 王智, 卫国锋, 梁璇玑, 陈玉川, 张烜玮, 姚海元, 许保珅, 宋尚飞, 史博会, 吴海浩, 宫敬
1 天然气水合物国家重点实验室,北京 102249 2 中国石油大学(北京)油气管道输送安全国家工程实验室/石油工程教育部重点实验室/城市油气输配技术北京市重点实验室,北京 102249 3 国家石油天然气管网集团有限公司西气东输分公司,上海 710018 4 长庆工程设计有限公司,西安 710018 5 中国石油国际勘探开发有限公司,北京 100034 6 中国石油塔里木油田公司博大油气开发部,阿克苏 842300 7 中海油研究总院有限责任公司,北京 100028
Progress of hydrate Anti-Agglomerants
FU Shunkang, WANG Zhi, WEI Guofeng, LIANG Xuanji, CHEN Yuchuan, ZHANG Xuanwei, YAO Haiyuan, XU Baoshen, SONG Shangfei, SHI Bohui, WU Haihao, GONG Jing
1 State Key Laboratory of Natural Gas Hydrate in China University of Petroleum-Beijing, Beijing 102249, China 2 National Engineering Laboratory for Pipeline Safety/ MOE Key Laboratory of Petroleum Engineering /Beijing Key Laboratory of Urban Oil and Gas Distribution Technology, China University of Petroleum-Beijing, Beijing 102249, China 3 PipeChina West East Pipeline Company, Shanghai 200122, China 4 Changqing Engineering Design Co., Ltd., Xi'an 710018, China 5 China’s Oil and Gas Exploration and Development Company, Beijing 100034, China 6 Boda oil and Gas Development Department of PetroChina Tarim Oilfield Company, Aksu 842300, China 7 CNOOC Research Institute Technology R&D Center, Beijing 100028, China
文章导读
摘要
相较于传统的水合物生成抑制方式,向管线中添加低剂量抑制剂的水合物风险控制策略,在深水多相集输领域防控水合物堵塞中具有显著的优势,备受国内外学术与工业界的青睐。阻聚剂是一种能在更为苛刻的高过冷度工况下,仍具有良好阻聚效果的低剂量抑制剂,可保证多相混输流体内生成的水合物以浆液呈现可输送状态。本文重点阐述了影响阻聚剂性能的关键因素,梳理了阻聚剂存在体系内水合物生成及流动的宏微观特性。总体而言,阻聚剂的性能受加剂量、含水率、矿化度、pH、溶液乳化状态及应用工况过冷度等综合因素的影响;添加阻聚剂体系的水合物浆液内水合物生成量稳定适中、流动性越好,油气水混输系统内发生水合物堵塞的风险越低,其流动安全的保障可靠性越高。基于上述研究,本文总结了阻聚剂对水合物的作用机理,并给出了未来深入开展阻聚剂研究的建议。
关键词 :
水合物,阻聚剂,乳化,吸附
Abstract :
Compared with the traditional method of hydrate prevention and control in the field of multiphase gathering and
transportation in deep water, the method of adding low-dose hydrate inhibitor has significant advantages. It is favored in academic
and industrial fields at home and abroad. Anti-Agglomerant (AA) is one type of the low-dose hydrate inhibitors that can still have
good performance under more severe high undercooling conditions, which can ensure that the generated hydrate in multiphase flows
can mix with the transport fluid as slurry. In this work, the indexes for evaluating the performance of anti-agglomerants and the key
influence factors are summarized. The macro and micro characteristics of hydrate formation and the flow features of hydrate slurry
in the presence of anti-agglomerants in the system are reviewed. In general, the performance of AA is affected by its dosage, water
cut, mineralization degree and pH of the fluid, the emulsification state and subcooling degree under the application conditions. The
more stable and moderate the hydrate formation amount is, the better is the fluidity of the hydrate slurry with AA addition and the
lower the risk of hydrate blockage occurring in the multiphase flow with higher reliability of ensuring its flow safety. Based on all the
research, the mechanisms of AA are summarized. Finally, suggestions for further research on anti-agglomerants in the future are given.
Key words :
hydrate; anti-agglomerants; emulsion; adsorption
收稿日期: 2024-04-30
基金资助: 国家自然科学基金(U20B6005,52104069,51874323)、北京市自然科学基金(3192027)、中国博士后科学基金资助项目(2022M713460) 和
通讯作者:
bh.shi@cup.edu.cn
引用本文:
付顺康, 王智, 卫国锋, 梁璇玑, 陈玉川, 张烜玮, 姚海元, 许保珅, 宋尚飞, 史博会, 吴海浩, 宫敬. 水合物阻聚剂研究进展. 石油科 学通报, 2024, 02: 318-337 FU Shunkang, WANG Zhi, WEI Guofeng, LIANG Xuanji, CHEN Yuchuan, ZHANG Xuanwei, YAO Haiyuan, XU Baoshen, SONG Shangfei, SHI Bohui, WU Haihao, GONG Jing. Progress of hydrate Anti-Agglomerants. Petroleum Science Bulletin, 2024, 02: 318-337.
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