科学技术与工程
科學技術與工程
과학기술여공정
SCIENCE TECHNOLOGY AND ENGINEERING
2009年
20期
6156-6158
,共3页
牟善波%张士诚%曹砚铎%庄照锋%王益维%高俊
牟善波%張士誠%曹硯鐸%莊照鋒%王益維%高俊
모선파%장사성%조연탁%장조봉%왕익유%고준
阴离子表活剂%压裂液%氮气%二氧化碳%天然气%破胶
陰離子錶活劑%壓裂液%氮氣%二氧化碳%天然氣%破膠
음리자표활제%압렬액%담기%이양화탄%천연기%파효
anionic surfactant fracturing fluid nitrogen carbon dioxide natural gas gel breaking
阴离子表活剂压裂液是新型清洁压裂液,原油和地层水对其破胶机理与实验研究已相当充分,但气体对其破胶作用至今研究很少.为解决阴离子表活剂压裂液在压裂应用中的障碍,研究采用一套实用的实验流程,评价了天然气、氮气、二氧化碳三种常见气体对阴离子表活剂压裂液的影响.实验证明,三种不同的气体对阴离子表活剂压裂液的降粘幅度存在较大的差别,其中,二氧化碳气体对阴离子清洁压裂液降粘幅度最大,可使交联液体彻底破胶,天然气对阴离子型表活剂压裂液降粘幅度较小,氮气对阴离子压裂液的粘度几乎没有影响,氮气和天然气可以使液体泡沫化,从而有利于返排.实验结果为优化压裂设计提供了依据,可有效提高现场压裂施工成功率.
陰離子錶活劑壓裂液是新型清潔壓裂液,原油和地層水對其破膠機理與實驗研究已相噹充分,但氣體對其破膠作用至今研究很少.為解決陰離子錶活劑壓裂液在壓裂應用中的障礙,研究採用一套實用的實驗流程,評價瞭天然氣、氮氣、二氧化碳三種常見氣體對陰離子錶活劑壓裂液的影響.實驗證明,三種不同的氣體對陰離子錶活劑壓裂液的降粘幅度存在較大的差彆,其中,二氧化碳氣體對陰離子清潔壓裂液降粘幅度最大,可使交聯液體徹底破膠,天然氣對陰離子型錶活劑壓裂液降粘幅度較小,氮氣對陰離子壓裂液的粘度幾乎沒有影響,氮氣和天然氣可以使液體泡沫化,從而有利于返排.實驗結果為優化壓裂設計提供瞭依據,可有效提高現場壓裂施工成功率.
음리자표활제압렬액시신형청길압렬액,원유화지층수대기파효궤리여실험연구이상당충분,단기체대기파효작용지금연구흔소.위해결음리자표활제압렬액재압렬응용중적장애,연구채용일투실용적실험류정,평개료천연기、담기、이양화탄삼충상견기체대음리자표활제압렬액적영향.실험증명,삼충불동적기체대음리자표활제압렬액적강점폭도존재교대적차별,기중,이양화탄기체대음리자청길압렬액강점폭도최대,가사교련액체철저파효,천연기대음리자형표활제압렬액강점폭도교소,담기대음리자압렬액적점도궤호몰유영향,담기화천연기가이사액체포말화,종이유리우반배.실험결과위우화압렬설계제공료의거,가유효제고현장압렬시공성공솔.
Anionic surfactant fracturing fluid (ASFF) is a kind of clean fluid,and research of breaking mechanism of crude oil and formation water as well as the experiments had been fully developed.However,the research of influence of gas on fracturing fluid breaking can be hardly traced nowadays.In order to eliminate the obstacle of the appliance of anionic surfactant fluid in fracturing,a set of experimental procedures have been employed to evaluate the influence of natural gas,nitrogen and carbon dioxide on anionic surfactant fracturing fluid.According to the experiment,the viscosity decreasing extent of the three different gases on anionic surfactant fracturing fluid varies sharply.Among the three gases,the CO2 produces the biggest viscosity decreasing extent for ASFF,and it can break the fluid thoroughly;the natural gas produces relative small viscosity decreasing extent on ASFF while the nitrogen cast nearly no influence on viscosity of ASFF.However,nitrogen and natural gas can foam the fluid,which does good for flowing back.The result of the experiment provide the basis for optimizing fracturing fluid design,therefore,the success possibility of field operation can be enhanced.
