周仕明,陆沛青. 井筒密封完整性监测与智能感知技术进展与展望[J]. 石油钻探技术,2024,52(5):1-7. DOI: 10.11911/syztjs.2024097
引用本文: 周仕明,陆沛青. 井筒密封完整性监测与智能感知技术进展与展望[J]. 石油钻探技术,2024,52(5):1-7. DOI: 10.11911/syztjs.2024097
ZHOU Shiming, LU Peiqing. Progress and prospect of monitoring and intelligent perception technology for wellbore sealing integrity [J]. Petroleum Drilling Techniques, 2024, 52(5):1-7. DOI: 10.11911/syztjs.2024097
Citation: ZHOU Shiming, LU Peiqing. Progress and prospect of monitoring and intelligent perception technology for wellbore sealing integrity [J]. Petroleum Drilling Techniques, 2024, 52(5):1-7. DOI: 10.11911/syztjs.2024097

井筒密封完整性监测与智能感知技术进展与展望

Progress and Prospect of Monitoring and Intelligent Perception Technology for Wellbore Sealing Integrity

  • 摘要: 全面掌握油气井生产过程中井筒密封完整性演化信息,是保障油气资源安全效益开发的基础,传统测井技术难以满足井筒全生命周期完整性的监测需求,实现井筒、地层信息感知与数字技术的高效融合势在必行。为此,国内外以井筒完整性原位感知技术为主要突破口,在声波监测、光纤传感、自感知水泥浆、永久井下测试装置等方面进行了探索。在总结国内外井筒密封完整性监测与智能感知技术进展的基础上,分析了存在的不足与难题,并从声波监测技术、分布式光纤传感监测技术、智能水泥浆体系和井下永久测试装置等4方面进行了发展展望,以推动构建智能井筒,实时精准掌握油气井井筒健康状况,促进油气工程技术安全、高效、智能化升级。

     

    Abstract: Cementing casing and cement sheath are the key barriers to oil and gas well production. A comprehensive grasp of wellbore seal integrity evolution information in the process of oil and gas production is an important measure to ensure the safety and benefit development of oil and gas resources, and its efficient integration with digital technology is imperative. However, oil and gas wells are generally faced with "three high, three complex" and other severe geological environment, intelligent perception has a series of challenges such as response lag, data blind spot, information doubt area, limited prediction and so on. To solve the above problems, the in-situ sensing technology of wellbore integrity is taken as the main breakthrough, and great progress has been made in the fields of acoustic monitoring, optical fiber sensing, self-sensing cement, permanent downhole test equipment and other fields. However, continuous research needs to be done in the experimental platform, downhole equipment, test and evaluation methods and software, and supporting processes. After the technology is formed, it is expected to build a digital wellbore, accurately grasp the dynamic information of the wellbore health status of oil and gas Wells in real time, and promote the safe, efficient and intelligent upgrading of oil and gas engineering technology.

     

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