非常规油气
非常規油氣
비상규유기
Unconventional Oil & Gas
2015年
5期
55-60
,共6页
蓄能整体压裂%整体压裂%注采不见效%井区
蓄能整體壓裂%整體壓裂%註採不見效%井區
축능정체압렬%정체압렬%주채불견효%정구
energy storage bulk fracturing%bulk fracturing%invalid injection and production%wellblock
低渗透油田外围井区砂体不连续,井网不完善,注采不见效,常规压裂技术无法显著提高单井产量,针对此问题,开展蓄能整体压裂技术研究.采用室内裂缝规模模拟、裂缝净压力监测分析及压裂液体系室内评价方法,对老区特定井网和储层条件下蓄能整体压裂的裂缝参数、施工排量、用液量及压裂液体系进行优化,排量优化结果为4 ~10m3/min,配合复合压裂液体系 (滑溜水+线性胶+冻胶组合)、多粒径组合支撑剂 (粉陶+均陶+小陶) 提高压裂改造效果.现场试验表明,前置液阶段滑溜水与清水交替加入,增加裂缝内的净压力,提高微裂缝开启程度; 同一井区油井同步压裂,能增加裂缝在一定范围内的相互干扰,提高井区的产量,改善注采关系.试验结果表明,蓄能整体压裂技术能够在控制投入成本的同时提高单井产量,实现老油田外围井区经济有效开发.
低滲透油田外圍井區砂體不連續,井網不完善,註採不見效,常規壓裂技術無法顯著提高單井產量,針對此問題,開展蓄能整體壓裂技術研究.採用室內裂縫規模模擬、裂縫淨壓力鑑測分析及壓裂液體繫室內評價方法,對老區特定井網和儲層條件下蓄能整體壓裂的裂縫參數、施工排量、用液量及壓裂液體繫進行優化,排量優化結果為4 ~10m3/min,配閤複閤壓裂液體繫 (滑霤水+線性膠+凍膠組閤)、多粒徑組閤支撐劑 (粉陶+均陶+小陶) 提高壓裂改造效果.現場試驗錶明,前置液階段滑霤水與清水交替加入,增加裂縫內的淨壓力,提高微裂縫開啟程度; 同一井區油井同步壓裂,能增加裂縫在一定範圍內的相互榦擾,提高井區的產量,改善註採關繫.試驗結果錶明,蓄能整體壓裂技術能夠在控製投入成本的同時提高單井產量,實現老油田外圍井區經濟有效開髮.
저삼투유전외위정구사체불련속,정망불완선,주채불견효,상규압렬기술무법현저제고단정산량,침대차문제,개전축능정체압렬기술연구.채용실내렬봉규모모의、렬봉정압력감측분석급압렬액체계실내평개방법,대로구특정정망화저층조건하축능정체압렬적렬봉삼수、시공배량、용액량급압렬액체계진행우화,배량우화결과위4 ~10m3/min,배합복합압렬액체계 (활류수+선성효+동효조합)、다립경조합지탱제 (분도+균도+소도) 제고압렬개조효과.현장시험표명,전치액계단활류수여청수교체가입,증가렬봉내적정압력,제고미렬봉개계정도; 동일정구유정동보압렬,능증가렬봉재일정범위내적상호간우,제고정구적산량,개선주채관계.시험결과표명,축능정체압렬기술능구재공제투입성본적동시제고단정산량,실현로유전외위정구경제유효개발.
Peripheral wellblock in low-permeability oilfields feature in discontinuous sand bodies, imperfect well pattern, and invalid injection and production. Conventional fracture technology could not increase single-well output remarkably. For this, we carried out research on energy storage bulk fracturing technology. With lab fracture simulation, net pressure monitoring analysis and lab evaluation on fracturing fluid system, we optimized the fracture parameters, construction dis-placement, liquid volume and fracturing fluid system of special well pattern in old oilfields and energy storage bulk fractu-ring in reservoirs. The displacement optimization result was 4~10m3/min. Fracturing effect was enhanced by matching with complex fracturing fluid system ( slickwater+linear glue+gel) and proppant of multisize particles ( ceramic powder+medium powder+small powder) . Field test showed that net pressure within fractures was increased and micro-fracture opening de-gree was enhanced by alternately adding injecting slickwater and clean water at preflush period. Simultaneous fracturing in oil wells at the same wellblock could increase mutual interference within a certain range, increase output of the wellblock, and improve injection-production relationship. Test results revealed that the energy storage bulk fracturing technology could increase single-well output while reducing cost, and enable the peripheral wellblock of old oilfields to realize economic and efficient development.