石油与天然气化工
石油與天然氣化工
석유여천연기화공
CHEMICAL ENGINEERING OF OIL AND GAS
2014年
4期
428-432
,共5页
钻井液%高温%流变性%流变仪
鑽井液%高溫%流變性%流變儀
찬정액%고온%류변성%류변의
drilling fluid%high temperature%rheological property%rheometer
钻井液的高温流变性对于深井、超深井快速、安全地钻进具有重要影响,而高温老化冷却后测定的钻井液流变性能并不能代表高温条件下的流变性能。因此采用Fann50SL型高温高压流变仪对抗高温水基钻井液体系的高温流变性进行了研究,求得其流变参数,最高实验温度达到了220℃。综合考察了温度、密度、聚合醇、聚合物和盐等因素对钻井液体系流变性的影响。结果表明,塑性黏度与温度间遵从二次函数关系,温度升高,塑性黏度呈指数规律下降,且体系的密度越大,受温度的影响越大;在低温段(~150℃)加入聚合醇和聚合物会对体系流变性产生明显影响,高温段(150~220℃)影响较小;盐对高密度钻井液体系流变性的影响明显大于低密度钻井液体系。该研究可为现场施工中钻井液体系流变性的调控提供指导。
鑽井液的高溫流變性對于深井、超深井快速、安全地鑽進具有重要影響,而高溫老化冷卻後測定的鑽井液流變性能併不能代錶高溫條件下的流變性能。因此採用Fann50SL型高溫高壓流變儀對抗高溫水基鑽井液體繫的高溫流變性進行瞭研究,求得其流變參數,最高實驗溫度達到瞭220℃。綜閤攷察瞭溫度、密度、聚閤醇、聚閤物和鹽等因素對鑽井液體繫流變性的影響。結果錶明,塑性黏度與溫度間遵從二次函數關繫,溫度升高,塑性黏度呈指數規律下降,且體繫的密度越大,受溫度的影響越大;在低溫段(~150℃)加入聚閤醇和聚閤物會對體繫流變性產生明顯影響,高溫段(150~220℃)影響較小;鹽對高密度鑽井液體繫流變性的影響明顯大于低密度鑽井液體繫。該研究可為現場施工中鑽井液體繫流變性的調控提供指導。
찬정액적고온류변성대우심정、초심정쾌속、안전지찬진구유중요영향,이고온노화냉각후측정적찬정액류변성능병불능대표고온조건하적류변성능。인차채용Fann50SL형고온고압류변의대항고온수기찬정액체계적고온류변성진행료연구,구득기류변삼수,최고실험온도체도료220℃。종합고찰료온도、밀도、취합순、취합물화염등인소대찬정액체계류변성적영향。결과표명,소성점도여온도간준종이차함수관계,온도승고,소성점도정지수규률하강,차체계적밀도월대,수온도적영향월대;재저온단(~150℃)가입취합순화취합물회대체계류변성산생명현영향,고온단(150~220℃)영향교소;염대고밀도찬정액체계류변성적영향명현대우저밀도찬정액체계。해연구가위현장시공중찬정액체계류변성적조공제공지도。
High temperature rheological properties of drilling fluid have important influences on fast and safe drilling in deep or ultra-deep wells .Rheological properties of drilling fluid after high temperature aging and cooling do not represent the rheological properties at high tempera-ture conditions .High temperature rheological properties of water-based temperature resistance drilling fluid system were studied with the Model 50SL high-temperature high-pressure rheome-ter ,so the rheological parameters were obtained ,and the maximum experimental temperature reached 220℃ .The effects of temperature ,density ,polyalcohol ,polymer and salt on rheological properties of drilling fluid were studied .The results show that plastic viscosity and temperature complies with the relation of quadratic function .Plastic viscosity decreases exponentially with in-creasing temperature ,and the higher the density ,the greater influence by temperature .In low-temperature range(less than 150 ℃) ,polyol and polymer have obvious influence on rheological properties of drilling fluid system ,and less influence in high temperature range (150-220 ℃) . Salt has more obvious influence on rheological properties of high density drilling fluid system . The study provides guidance for regulating rheological properties of drilling fluid system in field operation .