中国石油大学学报(自然科学版)
中國石油大學學報(自然科學版)
중국석유대학학보(자연과학판)
JOURNAL OF CHINA UNIVERSITY OF PETROLEUM(EDITION OF NATURAL SCIENCE)
2015年
1期
95-102
,共8页
张兴全%周英操%刘伟%郭庆丰
張興全%週英操%劉偉%郭慶豐
장흥전%주영조%류위%곽경봉
重力置换气侵%欠平衡气侵%井底压力%泥浆池增量%气液两相流
重力置換氣侵%欠平衡氣侵%井底壓力%泥漿池增量%氣液兩相流
중력치환기침%흠평형기침%정저압력%니장지증량%기액량상류
gravity displacement gas kick%underbalanced pressure gas kick%downhole pressure%mud pit increment%gas-liquid two-phase flow
在裂缝性碳酸盐岩地层中,地层气体以欠平衡或重力置换方式进入井筒形成气侵。对重力置换气侵和欠平衡气侵类型及进气量进行分析;基于气液两相流理论建立井筒气侵模型,改变边界条件计算精细控压钻井气侵期间井底压力和泥浆池增量的变化;通过改变井口压力观察泥浆池总量或出口流量的变化,分析井底气侵方式。结果表明:井口增加回压后,井底压力由欠平衡状态转变为过平衡状态,泥浆池增量略微增加,而重力置换气侵泥浆池增量保持原趋势增加,由此可以判断出井底的气侵方式;该判定方法在现场试验中得到验证,对精细控压钻井安全快速控制气侵有指导意义。
在裂縫性碳痠鹽巖地層中,地層氣體以欠平衡或重力置換方式進入井筒形成氣侵。對重力置換氣侵和欠平衡氣侵類型及進氣量進行分析;基于氣液兩相流理論建立井筒氣侵模型,改變邊界條件計算精細控壓鑽井氣侵期間井底壓力和泥漿池增量的變化;通過改變井口壓力觀察泥漿池總量或齣口流量的變化,分析井底氣侵方式。結果錶明:井口增加迴壓後,井底壓力由欠平衡狀態轉變為過平衡狀態,泥漿池增量略微增加,而重力置換氣侵泥漿池增量保持原趨勢增加,由此可以判斷齣井底的氣侵方式;該判定方法在現場試驗中得到驗證,對精細控壓鑽井安全快速控製氣侵有指導意義。
재렬봉성탄산염암지층중,지층기체이흠평형혹중력치환방식진입정통형성기침。대중력치환기침화흠평형기침류형급진기량진행분석;기우기액량상류이론건립정통기침모형,개변변계조건계산정세공압찬정기침기간정저압력화니장지증량적변화;통과개변정구압력관찰니장지총량혹출구류량적변화,분석정저기침방식。결과표명:정구증가회압후,정저압력유흠평형상태전변위과평형상태,니장지증량략미증가,이중력치환기침니장지증량보지원추세증가,유차가이판단출정저적기침방식;해판정방법재현장시험중득도험증,대정세공압찬정안전쾌속공제기침유지도의의。
During well drilling in fracture-vuggy carbonate oil and gas reservoirs, gas may enter into wellbore in the forms of underbalanced pressure gas kick and gravity displacement gas kick. In order to analyze the gas kick velocity and identify the two different gas kick types, a wellbore gas kick model was proposed based on gas-liquid two phase flow to calculate downhole pressure and the incremental amount of drilling fluid in mud pit. It is possible to determine the types of gas kicks by observing the volume change in the mud pit via changing wellhead back pressure. The results show that, when the wellhead back pressure is increased, the downhole pressure may change and result in a transfer from underbalanced to overbalanced, in which only a slight volume increase in mud pit can be observed. On the other hand, the volume in mud pit may maintain its steady increase trend if a gravity displacement gas kick occurs downhole. This can be used to identify the gas kick types, and the method is verified in the field trials, which is useful for the managed pressure drilling to control gas kick quickly and safely.
