Analysis of Gas Migrationin Well Cementing and Cementing Technology for Shallow Gas Wells in ANACO Gas Field
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摘要: ANACO气田位于委内瑞拉东北部,天然气储量丰富,约占委内瑞拉天然气总产量60%。但该气田具有储层结构复杂,气、水层自上而下分布广,地表以下分布着多套不同压力体系的气层,具有地层破裂压力低,孔隙压力高,安全压力窗口窄等特征;部分区块有高压气、水圈闭层,形成异常高压气窝和水带,能量大,压力高。钻井通常为五开井身结构,以封固不同压力体系地层。上部一开~三开浅层高压气固井,受地层承压能力限制,缺乏有效的井口环空压力补偿和控制手段,难以发挥多凝压稳水泥浆体系优势;上部井眼尺寸大,顶替效率低,易发生环空混窜,使水泥浆受到污染,加上水泥浆防气窜性能差及胶凝失重等因素的作用,导致固井封隔质量差,使环空气窜、井口冒气现象时有发生,严重影响气田开发。通过对水泥浆稳定性、静胶凝强度和SPN性能系数等防气窜能力的实验研究,控制水泥浆静胶凝强度发展的风险区间小于25 min、SPN小于3,并采取在大尺寸套管固井以0.55 m3/min的低排量进行塞流注替作业,以及套管外环空插管回注高密度防气窜水泥浆,置换混窜污染水泥浆并实现双凝压稳作用等工艺技术措施,取得了良好的防漏、压稳、防窜效果,成功解决了ANACO气田浅层气固井封固质量问题。Abstract: The ANACO gas field is located in the northeast of Venezuela, and has huge natural gas reserves, almost 60% of the total natural gas reserves in Venezuela. The reservoir formations of the ANACO gas field are of great complexity, with gas zones and water zones extensively distributed from the shallow formations and to the deep formations. Several gas zones with different pressure systems coexist, and have low fracturing pressures, high pore pressures and narrow safety pressure windows. In some parts of the gas field, high pressure gas zones and water traps form high pressure gas pockets and water belts. Wells drilled in this area generally have five intervals to seal off zones of different pressure systems. From the first interval to the third interval, high pressure shallow gas zones exist, and the control of the shallow gas zones is limited by the pressure bearing capacity of the formations. Cement slurries with multiple thickening times cannot be used in cementing the top formations. Several factors, such as large hole sizes, low displacement efficiency, mixing and channeling of cement slurries in annular space, contamination to cement slurries, changes in anti-migration performance, as well as weight loss by gelling of cement slurry, all contribute to poor cementing job, negatively affecting the development of the gas field. The cementing service team hasstudied the stability of cement slurry, static gel strength and SPN coefficient to try to find a way to solve the problems encountered. In field operations, time interval for the development of the static gel strength of cement slurry was controlled within 25 min, and SPN controlled to less than 3, and in cementing casing strings with large sizes, a low flow rate of 0.55 m3/min was used and plug flow maintained during injection and displacement. High density anti-migration cement slurry was also injected into the annular space to displace the contaminated cement slurry, in an effort to thoroughly seal the formation with double thickening times. Using this technology, loss of cementing slurry has been avoided, formation pressure completely brought under control, and gas migration prevented. The quality of the cementing jobs in ANACO gas field has been improved using this technology.
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Key words:
- Shallow gas /
- Well cementing /
- Anti-gas-migration cement slurry /
- Close packing /
- Static gel strength /
- Venezuela
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