天然气工业
天然氣工業
천연기공업
NATURAL GASINDUSTRY
2009年
11期
70-72
,共3页
凝析油气田%裂缝(岩石)%调剖荆%成胶性%浓度%温度%pH值%矿化度%实验
凝析油氣田%裂縫(巖石)%調剖荊%成膠性%濃度%溫度%pH值%礦化度%實驗
응석유기전%렬봉(암석)%조부형%성효성%농도%온도%pH치%광화도%실험
condensate oil and gas reservoir%rock fracture%profile control agent%gelation property%temperature%pH val-ue%salinity%experiment
针对裂缝型凝析气藏调剖剂封堵强度不够、调剖深度有限的难点,通过试验找出了一种新型、性能更加稳定的弱凝胶调剖剂,该调剖体系形成的弱凝胶稳定性好.在对其成胶性能的研究后认为聚合物浓度、交联剂浓度、温度、pH值和矿化度是影响该调剖体系成胶性能的主要因素:聚合物浓度增加,体系成胶时间缩短,强度增强;交联剂浓度增加,成胶时间缩短,强度增加;随着温度升高,成胶时间缩短,强度增加,当温度高到一定值时,弱凝胶强度变弱;该调剖剂在中性至弱碱性环境下利于成胶;聚合物分子具有盐敏性,但矿化度较低时,矿化度对交联体系成胶时间和强度的影响并不大.
針對裂縫型凝析氣藏調剖劑封堵彊度不夠、調剖深度有限的難點,通過試驗找齣瞭一種新型、性能更加穩定的弱凝膠調剖劑,該調剖體繫形成的弱凝膠穩定性好.在對其成膠性能的研究後認為聚閤物濃度、交聯劑濃度、溫度、pH值和礦化度是影響該調剖體繫成膠性能的主要因素:聚閤物濃度增加,體繫成膠時間縮短,彊度增彊;交聯劑濃度增加,成膠時間縮短,彊度增加;隨著溫度升高,成膠時間縮短,彊度增加,噹溫度高到一定值時,弱凝膠彊度變弱;該調剖劑在中性至弱堿性環境下利于成膠;聚閤物分子具有鹽敏性,但礦化度較低時,礦化度對交聯體繫成膠時間和彊度的影響併不大.
침대렬봉형응석기장조부제봉도강도불구、조부심도유한적난점,통과시험조출료일충신형、성능경가은정적약응효조부제,해조부체계형성적약응효은정성호.재대기성효성능적연구후인위취합물농도、교련제농도、온도、pH치화광화도시영향해조부체계성효성능적주요인소:취합물농도증가,체계성효시간축단,강도증강;교련제농도증가,성효시간축단,강도증가;수착온도승고,성효시간축단,강도증가,당온도고도일정치시,약응효강도변약;해조부제재중성지약감성배경하리우성효;취합물분자구유염민성,단광화도교저시,광화도대교련체계성효시간화강도적영향병불대.
In view of less blocking intensity and shallow profile depth of the existing profile control agent for fractured gas condensate reservoirs, a new type of slight gel profile control agent of higher stability was developed. Based on the researches of its gelling performance, concentration of polymer and cross linking agent, temperature, pH value and salinity were found to be the main influential factors. With polymer concentration, concentration of cross linking agent increasing and temperature ris-ing, the gelation time became shortened with the intensity incremented. But when the temperature reaches a particular value, the intensity of slight gelation became becomes weaker. It shows that for the new type of profile control agent, neutral to alka-lescent solution is favour of its gelation and it has characteristic of salinity sensitivity. While, at low salinity it has little effect on the gelation time and the intensity of cross linked system. Based on the above analysis, it is proved that this study is of vital importance to the development of fractured gas condensate reservoirs.