油气藏评价与开发
油氣藏評價與開髮
유기장평개여개발
2015年
2期
45-48,52
,共5页
漆国权%孙雷%陶章文%刘琦
漆國權%孫雷%陶章文%劉琦
칠국권%손뢰%도장문%류기
致密气藏%分段压裂%水平井%裂缝参数%正交试验
緻密氣藏%分段壓裂%水平井%裂縫參數%正交試驗
치밀기장%분단압렬%수평정%렬봉삼수%정교시험
tight gas reservoir%staged fracture%horizontal well%fracture parameter%orthogonal experiment
目前水平井分段压裂技术是致密气藏和非常规气藏开发的热点增产手段,而该技术的增产效果很大程度上取决于压裂缝参数。国内外很多学者对裂缝参数单因素进行了优化研究,很少考虑各参数对产能的综合影响作用,亟需裂缝参数组合优选研究。通过对X致密气藏进行数值模拟研究,探究了不同裂缝参数对致密气藏开采的影响规律,利用正交试验方法研究了不同裂缝参数对产能的综合影响作用。结果表明,X致密气藏的最佳裂缝参数组合是:压裂缝6条、裂缝长度140 m、裂缝导流能力30μm2·cm、裂缝错开分布、水平井中部裂缝间距大于根部和趾部裂缝间距。裂缝参数对X致密气藏开采效果的影响顺序是:裂缝分布>裂缝导流能力>裂缝间距>裂缝数>裂缝长度,并进一步提出X致密气藏为实现压裂增产,应主要通过优化裂缝分布方式,提高裂缝的导流能力,而不是单纯的增加裂缝的条数和长度。
目前水平井分段壓裂技術是緻密氣藏和非常規氣藏開髮的熱點增產手段,而該技術的增產效果很大程度上取決于壓裂縫參數。國內外很多學者對裂縫參數單因素進行瞭優化研究,很少攷慮各參數對產能的綜閤影響作用,亟需裂縫參數組閤優選研究。通過對X緻密氣藏進行數值模擬研究,探究瞭不同裂縫參數對緻密氣藏開採的影響規律,利用正交試驗方法研究瞭不同裂縫參數對產能的綜閤影響作用。結果錶明,X緻密氣藏的最佳裂縫參數組閤是:壓裂縫6條、裂縫長度140 m、裂縫導流能力30μm2·cm、裂縫錯開分佈、水平井中部裂縫間距大于根部和趾部裂縫間距。裂縫參數對X緻密氣藏開採效果的影響順序是:裂縫分佈>裂縫導流能力>裂縫間距>裂縫數>裂縫長度,併進一步提齣X緻密氣藏為實現壓裂增產,應主要通過優化裂縫分佈方式,提高裂縫的導流能力,而不是單純的增加裂縫的條數和長度。
목전수평정분단압렬기술시치밀기장화비상규기장개발적열점증산수단,이해기술적증산효과흔대정도상취결우압렬봉삼수。국내외흔다학자대렬봉삼수단인소진행료우화연구,흔소고필각삼수대산능적종합영향작용,극수렬봉삼수조합우선연구。통과대X치밀기장진행수치모의연구,탐구료불동렬봉삼수대치밀기장개채적영향규률,이용정교시험방법연구료불동렬봉삼수대산능적종합영향작용。결과표명,X치밀기장적최가렬봉삼수조합시:압렬봉6조、렬봉장도140 m、렬봉도류능력30μm2·cm、렬봉착개분포、수평정중부렬봉간거대우근부화지부렬봉간거。렬봉삼수대X치밀기장개채효과적영향순서시:렬봉분포>렬봉도류능력>렬봉간거>렬봉수>렬봉장도,병진일보제출X치밀기장위실현압렬증산,응주요통과우화렬봉분포방식,제고렬봉적도류능력,이불시단순적증가렬봉적조수화장도。
At present, multiple-fractured horizontal well is a hot spot for the development of tight gas reservoir and unconventional gas reservoir. Its stimulation greatly depends on the fracture parameters. Many scholars at home and abroad have done optimization on single factor for fracture parameters, but the combined influence of each parameter are less considered, so that fracture parame?ters combination optimization is desiderated. This article explores the influence law of different fracture parameters on the develop?ment of tight gas reservoir by numerical simulation in X tight gas reservoir. Then comprehensive influence of different fracture pa?rameters on well productivity is studied by orthogonal test. And the best fracture parameter combination for X tight gas reservoir is 6 fractures, fracture length of 140 m and fracture conductivity of 30 μm2·cm, fracture with staggered distribution, and fracture spac?ing in central is greater than that of the root and toe. The order of fracture parameters effect on X tight gas reservoir is the fracture distribution>fracture conductivity>fracture spacing>the number of fracture>fracture length. And it is further proposed that optimiz?ing fracture distribution and improving fracture conductivity are the primary way to achieve stimulation for X tight gas reservoir, not simply by increasing the length and the number of fractures.
