石油钻采工艺
石油鑽採工藝
석유찬채공예
OIL DRILLING & PRODUCTION TECHNOLOGY
2013年
6期
73-77
,共5页
程宇雄%李根生%王海柱%沈忠厚%范鑫
程宇雄%李根生%王海柱%瀋忠厚%範鑫
정우웅%리근생%왕해주%침충후%범흠
超临界二氧化碳%喷射压裂%连续油管%非常规油气%可行性分析
超臨界二氧化碳%噴射壓裂%連續油管%非常規油氣%可行性分析
초림계이양화탄%분사압렬%련속유관%비상규유기%가행성분석
supercritical carbon dioxide%jet fracturing%coiled-tubing%unconventional oil and gas%feasibility analysis
水力压裂增产技术在非常规油气藏的开发中承担着重要的角色,但在储层和环境保护方面都存在一些问题,而超临界CO2连续油管喷射压裂技术有望解决这些问题,成为未来非常规油气资源高效开发的新型压裂方法。通过分析超临界CO2的特性以及超临界CO2射孔能力和射流增压效果可知:超临界CO2射流比水射流的射孔能力强,射流增压效果好,可在较低的压力下实现喷射射孔和压裂;超临界CO2流体的渗透能力强,易渗入储层中的孔隙和微裂缝,在储层中产生大量微裂缝网络,提高油气采收率;将超临界CO2作为压裂流体,不仅可以避免黏土膨胀等储层伤害的发生,而且还能提高增产效果,尤其适合非常规油气藏的增产改造。在此基础上提出了超临界CO2连续油管喷射压裂的流程,为该技术的研究和应用提供了指导。
水力壓裂增產技術在非常規油氣藏的開髮中承擔著重要的角色,但在儲層和環境保護方麵都存在一些問題,而超臨界CO2連續油管噴射壓裂技術有望解決這些問題,成為未來非常規油氣資源高效開髮的新型壓裂方法。通過分析超臨界CO2的特性以及超臨界CO2射孔能力和射流增壓效果可知:超臨界CO2射流比水射流的射孔能力彊,射流增壓效果好,可在較低的壓力下實現噴射射孔和壓裂;超臨界CO2流體的滲透能力彊,易滲入儲層中的孔隙和微裂縫,在儲層中產生大量微裂縫網絡,提高油氣採收率;將超臨界CO2作為壓裂流體,不僅可以避免黏土膨脹等儲層傷害的髮生,而且還能提高增產效果,尤其適閤非常規油氣藏的增產改造。在此基礎上提齣瞭超臨界CO2連續油管噴射壓裂的流程,為該技術的研究和應用提供瞭指導。
수력압렬증산기술재비상규유기장적개발중승담착중요적각색,단재저층화배경보호방면도존재일사문제,이초림계CO2련속유관분사압렬기술유망해결저사문제,성위미래비상규유기자원고효개발적신형압렬방법。통과분석초림계CO2적특성이급초림계CO2사공능력화사류증압효과가지:초림계CO2사류비수사류적사공능력강,사류증압효과호,가재교저적압력하실현분사사공화압렬;초림계CO2류체적삼투능력강,역삼입저층중적공극화미렬봉,재저층중산생대량미렬봉망락,제고유기채수솔;장초림계CO2작위압렬류체,불부가이피면점토팽창등저층상해적발생,이차환능제고증산효과,우기괄합비상규유기장적증산개조。재차기출상제출료초림계CO2련속유관분사압렬적류정,위해기술적연구화응용제공료지도。
Hydraulic fracturing technique plays an important role in the development of unconventional oil and gas reservoirs, but it is facing some problems from the aspect of reservoir and environment protection. Coiled-tubing jet fracturing with supercritical CO2 (SC-CO2) is expected to be a solution to these problems and becomes a new and efifcient technique for developing the unconventional oil and gas resources. By analyzing the properties of SC-CO2 and its rock breaking capability and pressure boosting effect, some conclu-sions can be drawn as follows: The rock breaking capability and pressure boosting effect of SC-CO2 jet is stronger than water jet, so the jet perforation and fracturing process can be accomplished with a lower pressure. The inifltration capacity of SC-CO2 is so strong that it can inifltrate into the formation easily and cause a network of interconnecting fracture, enhancing the recovery of oil and gas. When SC-CO2 is utilized as the fracturing lfuid, formation damage, such as clay swelling, can be avoided, and it can improve the stimulation effect with its unique properties. So it is especially appropriate for the fracturing stimulation of unconventional oil and gas reservoirs. Finally, the operation procedure of coiled tubing jet fracturing with SC-CO2 was put forward, which provided guidance for the research and application of the technique.
