石油机械
石油機械
석유궤계
CHINA PETROLEUM MACHINERY
2015年
8期
114-118
,共5页
注水井%分层测试%工艺管柱%配套工具%冀东油田
註水井%分層測試%工藝管柱%配套工具%冀東油田
주수정%분층측시%공예관주%배투공구%기동유전
water injection well%layered injection testing%process string%matching tools%Jidong Oilfield
冀东油田目前主要通过同位素法测吸水剖面来认识注水井的分层吸水状况,这种方法无法测出各不同渗透率小层的启动压力,测试结果不能有效指导注水井分注段的合理划分,为此开展了不动管柱分层测试工艺管柱研究。该管柱主要由液压安全接头、水力锚、测试阀、卡水封隔器和伸缩管等组成,通过卡水封隔器将所有待测层卡分开来,再经投球憋压控制测试阀自下而上逐层开启同时关闭下一层后进行测试,一趟管柱可完成3~5层施工。现场应用结果表明,该测试工艺管柱结构简单,坐封可靠,易于操作,测试数据真实反映了小层启动压力和吸水能力,可为分层措施决策提供可靠依据。
冀東油田目前主要通過同位素法測吸水剖麵來認識註水井的分層吸水狀況,這種方法無法測齣各不同滲透率小層的啟動壓力,測試結果不能有效指導註水井分註段的閤理劃分,為此開展瞭不動管柱分層測試工藝管柱研究。該管柱主要由液壓安全接頭、水力錨、測試閥、卡水封隔器和伸縮管等組成,通過卡水封隔器將所有待測層卡分開來,再經投毬憋壓控製測試閥自下而上逐層開啟同時關閉下一層後進行測試,一趟管柱可完成3~5層施工。現場應用結果錶明,該測試工藝管柱結構簡單,坐封可靠,易于操作,測試數據真實反映瞭小層啟動壓力和吸水能力,可為分層措施決策提供可靠依據。
기동유전목전주요통과동위소법측흡수부면래인식주수정적분층흡수상황,저충방법무법측출각불동삼투솔소층적계동압력,측시결과불능유효지도주수정분주단적합리화분,위차개전료불동관주분층측시공예관주연구。해관주주요유액압안전접두、수력묘、측시벌、잡수봉격기화신축관등조성,통과잡수봉격기장소유대측층잡분개래,재경투구별압공제측시벌자하이상축층개계동시관폐하일층후진행측시,일쟁관주가완성3~5층시공。현장응용결과표명,해측시공예관주결구간단,좌봉가고,역우조작,측시수거진실반영료소층계동압력화흡수능력,가위분층조시결책제공가고의거。
Water injection profile is measured mainly by the isotope method to acquire layered water absorp?tion of water injection wells?This method cannot measure startup pressure of small layers under different permeabili?ty levels and its measured results cannot effectively guide reasonable division of water injection sections?For the rea?son, a research is conducted on layered injection testing technology of immobile strings?The string mainly consists of hydraulic safety joint, hydraulic anchor, test valve, water plugging packer and extension tube?All layers to be tested are divided by the water plugging packer and opened one by one from bottom to top by using a pressure?building control test valve while the lower layer is closed?One trip of string could be used to complete construction for three to five layers?Field application results show that, the test process string is simple in the structure, relia?ble for setting and easy to operate?Test data can truly reflect startup pressure and water absorbing capacity of smal?ler layers and provide a reliable basis for layered injection measure decision making.