西南石油大学学报(自然科学版)
西南石油大學學報(自然科學版)
서남석유대학학보(자연과학판)
JOURNAL OF SOUTHWEST PETROLEUM UNIVERSITY(SEIENCE & TECHNOLOGY EDITION)
2014年
5期
148-154
,共7页
刘平礼%张璐%潘亿勇%王天慧%赵立强
劉平禮%張璐%潘億勇%王天慧%趙立彊
류평례%장로%반억용%왕천혜%조립강
海上油田%在线%酸化%单步%注水井%实施监测
海上油田%在線%痠化%單步%註水井%實施鑑測
해상유전%재선%산화%단보%주수정%실시감측
offshore oilfield%online treatment%acidizing%single step%water injection well%real-time monitoring
针对常规酸化在海上油田环境、狭小空间作业时存在设备占地面积大、作业时间长、程序复杂、作业环境要求高和协调难度大,且多井次频繁酸化作业给海上油田生产带来严重影响等问题。提出并开展了新型、简易的注水井单步法在线(SSOA)酸化技术的研究,研究中使用高效解堵、抑制二次沉淀能力强的单一酸液InteAcid智能复合酸代替常规酸化三段液体,显著简化配液和注液过程。采用智能注入CCS系统,将酸液按照一定比例注入注水流程管线内在线混配,由注入水携带至储层进行酸化解堵;通过实时监测注入压力和流量,模拟计算表皮系数变化判断酸化效果,进而实时调整施工参数,保证最优酸化效果。新工艺的应用大幅度节约海上油田酸化作业时间、空间、费用和人力,提高酸化施工安全性。80余井次现场应用表明,成功率和有效率高,降压增注效果显著。
針對常規痠化在海上油田環境、狹小空間作業時存在設備佔地麵積大、作業時間長、程序複雜、作業環境要求高和協調難度大,且多井次頻繁痠化作業給海上油田生產帶來嚴重影響等問題。提齣併開展瞭新型、簡易的註水井單步法在線(SSOA)痠化技術的研究,研究中使用高效解堵、抑製二次沉澱能力彊的單一痠液InteAcid智能複閤痠代替常規痠化三段液體,顯著簡化配液和註液過程。採用智能註入CCS繫統,將痠液按照一定比例註入註水流程管線內在線混配,由註入水攜帶至儲層進行痠化解堵;通過實時鑑測註入壓力和流量,模擬計算錶皮繫數變化判斷痠化效果,進而實時調整施工參數,保證最優痠化效果。新工藝的應用大幅度節約海上油田痠化作業時間、空間、費用和人力,提高痠化施工安全性。80餘井次現場應用錶明,成功率和有效率高,降壓增註效果顯著。
침대상규산화재해상유전배경、협소공간작업시존재설비점지면적대、작업시간장、정서복잡、작업배경요구고화협조난도대,차다정차빈번산화작업급해상유전생산대래엄중영향등문제。제출병개전료신형、간역적주수정단보법재선(SSOA)산화기술적연구,연구중사용고효해도、억제이차침정능력강적단일산액InteAcid지능복합산대체상규산화삼단액체,현저간화배액화주액과정。채용지능주입CCS계통,장산액안조일정비례주입주수류정관선내재선혼배,유주입수휴대지저층진행산화해도;통과실시감측주입압력화류량,모의계산표피계수변화판단산화효과,진이실시조정시공삼수,보증최우산화효과。신공예적응용대폭도절약해상유전산화작업시간、공간、비용화인력,제고산화시공안전성。80여정차현장응용표명,성공솔화유효솔고,강압증주효과현저。
To address the problems associated with conventional acidizing on offshore platforms,such as large equipment footprint,long operation time,difficulty in treatment coordination and negative impact on production caused by repetitive acidizing. A novel and simplified acidizing technology for horizontal wells is proposed and studied in this paper. Intelligent integrated acid-Inteacid,which is highly efficient in damage removal and precipitation inhibition,is used to substitute the conventional three stages of acid system and simplify the mixing and injection process. Acid is added into the injection pipeline system at predesigned ratio and conveyed to formation to achieve stimulation under the control of intelligent injection system CCS. Real-time injection pressure and flow rate are monitored to compute the corresponding skin factor and adjust treatment parameters automatically,ensuring the optimum result of acidizing. The application of this novel technology saves the operation time and footprint,maximizes human resource and improves the treatment safety significantly. Over 80 field cases show that the technology is effective in reducing injection pressure and enhancing productivity with high success ratio and efficiency.
