化工进展 ›› 2022, Vol. 41 ›› Issue (11): 5746-5754.DOI: 10.16085/j.issn.1000-6613.2022-0913

• 能源加工与技术 • 上一篇    下一篇

泡状流中水合物生成预测模型及实验

付玮琪1(), 赵子贤1, 于璟2, 魏伟3, 王志远4, 黄炳香1()   

  1. 1.中国矿业大学煤炭资源与安全开采国家重点实验室,江苏 徐州 221116
    2.中国石油集团工程技术研究院有限公司,北京 102206
    3.中国石油集团勘探开发研究院(廊坊分院),河北 廊坊 065099
    4.中国石油大学(华东)石油工程学院,山东 青岛 266580
  • 收稿日期:2022-05-17 修回日期:2022-07-19 出版日期:2022-11-25 发布日期:2022-11-28
  • 通讯作者: 黄炳香
  • 作者简介:付玮琪(1991—),男,副研究员,硕士生导师,研究方向为多相流、水合物流动保障。E-mail:weiqi_fu@126.com
  • 基金资助:
    国家自然科学基金青年基金(52104047);中国石油科技创新基金(2021DQ02—1005);江苏省自然科学基金(BK20210507);中国矿业大学煤炭资源与安全开采国家重点实验室自主研究课题(SKLCRSM22X002)

Prediction model of hydrate formation in bubbly flow and experimental study

FU Weiqi1(), ZHAO Zixian1, YU Jing2, WEI Wei3, WANG Zhiyuan4, HUANG Bingxiang1()   

  1. 1.State Key Laboratory of Coal Resources and Safe Mining, China University of Mining and Technology, Xuzhou 221116, Jiangsu, China
    2.CNPC Engineering Technology R&D Company Limited, Beijing 102206, China
    3.CNPC Exploration and Development Institute (Langfang), Langfang 065099, Hebei, China
    4.School of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, Shandong, China
  • Received:2022-05-17 Revised:2022-07-19 Online:2022-11-25 Published:2022-11-28
  • Contact: HUANG Bingxiang

摘要:

针对可燃冰钻采井筒内易发生水合物生成和堵塞的工程问题,本文开展了泡状流条件下甲烷水合物生成实验,发现流速增加会提高水合物生成速率,黄原胶质量分数的增加会降低水合物生成速率。基于传质理论,构建了适用于可燃冰钻采井筒内泡状流条件下水合物生成预测模型,模型考虑了连续相流体流变性、气泡破裂、聚并和形变等因素对泡状流中气液界面分布和气液间传质规律的影响,并耦合实验数据,提出了气泡群间的综合传质系数经验公式,用于描述气泡间相互作用对气液间传质速率的影响。对比实验结果,所建立模型对水合物生成量和水合物生成速率的预测误差分别在±5%和±15%以内,满足工程计算需求。该模型的构建有助于精准预测油气和可燃冰钻采井筒内水合物风险,为建立经济、高效的井筒水合物防治方案奠定理论基础。

关键词: 泡状流, 水合物流动保障, 水合物生成, 传质

Abstract:

Considering the risks of hydrate formation and plug in the gas hydrate wellbore, experiments were conducted to investigate methane hydrate formation in bubbly flow using flow loop. Experimental results showed that the increases of flow velocities enhance the hydrate formation rates but the increases of xanthan gum concentrations reduced the hydrae formation rates. Based on gas-liquid mass transfer mechanism, a hydrate formation prediction model in bubbly flow was developed considering the influences of rheology of continuous-phase, and the breakage, coalescence and deformation of gas bubbles on the gas-liquid interfacial area and the gas-liquid mass transfer rate. Coupling with experimental data, an empirical formula of the overall mass transfer coefficient was proposed to describe the effect of interactions between gas bubbles on the gas-liquid mass transfer rates. Compared with experimental data, the developed model predicted the quantity of hydrate formation and the hydrate formation rate with the discrepancies within ±5% and ±15% respectively. The developed model contributed to forecast the hydrate risk in the oil, gas and natural gas hydrate wellbore and laid a theoretical foundation for developing an efficiency and economic hydrate management plan in wellbore.

Key words: bubbly flow, hydrate flow assurance, hydrate formation, mass transfer

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