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
3期
113-119
,共7页
任美鹏%李相方%刘书杰%王元娇
任美鵬%李相方%劉書傑%王元嬌
임미붕%리상방%류서걸%왕원교
钻井%钻井井喷%关井%井筒压力%井筒续流%气体滑脱
鑽井%鑽井井噴%關井%井筒壓力%井筒續流%氣體滑脫
찬정%찬정정분%관정%정통압력%정통속류%기체활탈
drilling%drilling blowout%shut in%wellbore pressure%wellbore afterflow%gas slippage
针对目前钻井井喷关井期间井筒压力计算值与实际关井压力差别较大的问题,将关井期间井筒压力变化分为两部分:关井初期地层流体继续侵入井筒的续流部分和气液密度差导致气体滑脱上升部分,从渗流理论和试井理论出发,考虑关井期间井筒内气体和钻井液的压缩性以及井筒的弹性,建立关井期间井筒续流模型;从气液两相流理论出发,考虑关井气体滑脱上升期间气体的膨胀、气体和钻井液压缩性、井筒弹性以及钻井液滤失等因素,建立关井期间气体滑脱模型;然后考虑关井期间井筒续流和气体滑脱综合影响,建立关井期间井筒压力计算模型,并给出基于本模型的气侵关井井筒压力读取方法。结果表明:关井初期井底压力呈指数增加,井底压力大于地层压力之后井底压力呈线性增加;关井初期井筒续流起主导作用,井底压力大于地层压力之后气体滑脱效应起主导作用。
針對目前鑽井井噴關井期間井筒壓力計算值與實際關井壓力差彆較大的問題,將關井期間井筒壓力變化分為兩部分:關井初期地層流體繼續侵入井筒的續流部分和氣液密度差導緻氣體滑脫上升部分,從滲流理論和試井理論齣髮,攷慮關井期間井筒內氣體和鑽井液的壓縮性以及井筒的彈性,建立關井期間井筒續流模型;從氣液兩相流理論齣髮,攷慮關井氣體滑脫上升期間氣體的膨脹、氣體和鑽井液壓縮性、井筒彈性以及鑽井液濾失等因素,建立關井期間氣體滑脫模型;然後攷慮關井期間井筒續流和氣體滑脫綜閤影響,建立關井期間井筒壓力計算模型,併給齣基于本模型的氣侵關井井筒壓力讀取方法。結果錶明:關井初期井底壓力呈指數增加,井底壓力大于地層壓力之後井底壓力呈線性增加;關井初期井筒續流起主導作用,井底壓力大于地層壓力之後氣體滑脫效應起主導作用。
침대목전찬정정분관정기간정통압력계산치여실제관정압력차별교대적문제,장관정기간정통압력변화분위량부분:관정초기지층류체계속침입정통적속류부분화기액밀도차도치기체활탈상승부분,종삼류이론화시정이론출발,고필관정기간정통내기체화찬정액적압축성이급정통적탄성,건립관정기간정통속류모형;종기액량상류이론출발,고필관정기체활탈상승기간기체적팽창、기체화찬정액압축성、정통탄성이급찬정액려실등인소,건립관정기간기체활탈모형;연후고필관정기간정통속류화기체활탈종합영향,건립관정기간정통압력계산모형,병급출기우본모형적기침관정정통압력독취방법。결과표명:관정초기정저압력정지수증가,정저압력대우지층압력지후정저압력정선성증가;관정초기정통속류기주도작용,정저압력대우지층압력지후기체활탈효응기주도작용。
The change of wellbore pressure during the shut-in period after blowout is an important issue for well killing design and affects the wellbore safety. Two main reasons that can cause the wellbore pressure change during the shut-in were ac-counted, including the wellbore flow after the shut in and the gas slippage due to the density difference between gas and liq-uid. A wellbore afterflow model was established considering the compressibility of gas and drilling fluid and the elasticity of the wellbore, and a gas slippage model was constructed based on gas-liquid two phase flow principles. It also considered the compressibility of gas and drilling fluid and the filtration of drilling fluid in the wellbore during the shut-in. The results indi-cate that the bottom hole pressure increases exponentially during the initial period of shut in, but it becomes linearly when the bottom hole pressure is greater than the formation pressure. The afterflow is essential to the bottomhole pressure during the in-itial shut-in period, while the gas slippage prevails after the bottomhole pressure is greater than the formation pressure.
