石油钻探技术
石油鑽探技術
석유찬탐기술
PETROLEUM DRILLING TECHNIQUES
2015年
4期
91-95
,共5页
楼晨阳%姚晓%何德清%于三跃%韩远远%张鹏伟
樓晨暘%姚曉%何德清%于三躍%韓遠遠%張鵬偉
루신양%요효%하덕청%우삼약%한원원%장붕위
水泥浆性能%高温增强剂%钙质晶须%抗压强度%冲击韧度
水泥漿性能%高溫增彊劑%鈣質晶鬚%抗壓彊度%遲擊韌度
수니장성능%고온증강제%개질정수%항압강도%충격인도
cement slurry properties%high temperature reinforcing admixture%calcium-based whisker%compressive strength%impact toughness
为满足稠油开采对油井水泥石高温力学性能的要求,探索了钙质晶须在油井水泥及高温加砂水泥中应用的可行性。首先研究了80℃下硫酸钙晶须(CSW)及两种自制钙质晶须(GZWS和GZWL)对油井水泥石的增强增韧效果,并在此基础上,通过干热养护方式(600℃煅烧6 h)考察了5% GZWL对加砂水泥石的增强效果。结果发现,CSW对油井水泥石无增强增韧作用,而GZWL和GZWS的增强增韧效果明显,且长径比大的GZWL优于GZWS。随GZWL加量增大,油井水泥石的抗压强度和冲击韧度增大,当加量为5%时,1,3,7和28 d水泥石的抗压强度较净浆水泥石分别提高了18.7%,42.4%,20.6%和20.7%,冲击韧度较净浆水泥石分别提高了6.8%,7.0%,12.8%和13.0%;该加量下干热养护后的水泥石抗压强度较纯加砂水泥石提高了108.0%。研究结果表明,晶须表面性质(亲水性)是保障其与水泥石基体良好胶结并发挥其作用的前提,晶须长径比越大,增强效果越显著,故GZWL能有效抑制加砂水泥石的高温强度衰退。
為滿足稠油開採對油井水泥石高溫力學性能的要求,探索瞭鈣質晶鬚在油井水泥及高溫加砂水泥中應用的可行性。首先研究瞭80℃下硫痠鈣晶鬚(CSW)及兩種自製鈣質晶鬚(GZWS和GZWL)對油井水泥石的增彊增韌效果,併在此基礎上,通過榦熱養護方式(600℃煅燒6 h)攷察瞭5% GZWL對加砂水泥石的增彊效果。結果髮現,CSW對油井水泥石無增彊增韌作用,而GZWL和GZWS的增彊增韌效果明顯,且長徑比大的GZWL優于GZWS。隨GZWL加量增大,油井水泥石的抗壓彊度和遲擊韌度增大,噹加量為5%時,1,3,7和28 d水泥石的抗壓彊度較淨漿水泥石分彆提高瞭18.7%,42.4%,20.6%和20.7%,遲擊韌度較淨漿水泥石分彆提高瞭6.8%,7.0%,12.8%和13.0%;該加量下榦熱養護後的水泥石抗壓彊度較純加砂水泥石提高瞭108.0%。研究結果錶明,晶鬚錶麵性質(親水性)是保障其與水泥石基體良好膠結併髮揮其作用的前提,晶鬚長徑比越大,增彊效果越顯著,故GZWL能有效抑製加砂水泥石的高溫彊度衰退。
위만족주유개채대유정수니석고온역학성능적요구,탐색료개질정수재유정수니급고온가사수니중응용적가행성。수선연구료80℃하류산개정수(CSW)급량충자제개질정수(GZWS화GZWL)대유정수니석적증강증인효과,병재차기출상,통과간열양호방식(600℃단소6 h)고찰료5% GZWL대가사수니석적증강효과。결과발현,CSW대유정수니석무증강증인작용,이GZWL화GZWS적증강증인효과명현,차장경비대적GZWL우우GZWS。수GZWL가량증대,유정수니석적항압강도화충격인도증대,당가량위5%시,1,3,7화28 d수니석적항압강도교정장수니석분별제고료18.7%,42.4%,20.6%화20.7%,충격인도교정장수니석분별제고료6.8%,7.0%,12.8%화13.0%;해가량하간열양호후적수니석항압강도교순가사수니석제고료108.0%。연구결과표명,정수표면성질(친수성)시보장기여수니석기체량호효결병발휘기작용적전제,정수장경비월대,증강효과월현저,고GZWL능유효억제가사수니석적고온강도쇠퇴。
To satisfy the requirement of high temperature mechanical properties of oil well cement in heavy oil production ,the application of calcium-based whisker in oil well cement as well as in cement with silica sand at high temperatures was investigated .First ,the reinforcing and toughening effect of calcium sulfate whisker (CSW) and self-made whiskers (GZWS and GZWL) at 80 ℃ on oil well cement rock was tested ,and then on the base of it ,respectively .Compressive of cement with silica sand mixed with 5%GZWL in dry-heat curing at 600 ℃ was studied as well .The result showed that CSW had no reinforcing and toughening effect on oil well cemented rock ,while GZWS and GZWL had obvious reinforcing and toughening effects ,and GZWL with greater length diameter ratio was superior to GZWS .With the in-creased application of GZWL ,the compressive strength and impact toughness of oil well cement stone in-creased ,too .When 5% was added ,the compressive strengths of cement rocks 1 ,3 ,7 and 28 d were in-creased by 18 .7% ,42 .4% ,20 .6% and 20 .7% respectively ,compared with neat paste .Impact toughness was increased by 6 .8% ,7 .0% ,12 .8% and 13 .0% in the curing age .The result of the high temperature experiment showed the compressive strength of cement with silica sand with 5% GZWL was more than twice the contrast .It was demonstrated that GZWL efficiently acts as a high temperature resistance rein-forcing admixture .Furthermore ,a whisker with hydrophilicity had a good reinforcing effect ,and the grea-ter the long diameter ratio of w hisker ,the higher the reinforcing effect .
