石油勘探与开发
石油勘探與開髮
석유감탐여개발
PETROLEUM EXPLORATION AND DEVELOPMENT
2013年
2期
237-241
,共5页
张景臣%张士诚%卞晓冰%庄照峰%郭天魁
張景臣%張士誠%卞曉冰%莊照峰%郭天魁
장경신%장사성%변효빙%장조봉%곽천괴
裂缝稳定剂%导流能力%防砂效果%压裂液
裂縫穩定劑%導流能力%防砂效果%壓裂液
렬봉은정제%도류능력%방사효과%압렬액
fracture stabilizer%conductivity%sand control effect%fracturing fluid
针对疏松砂岩储集层压裂后裂缝容易失效的问题,优选适用于该类储集层压裂缝的裂缝稳定剂,通过室内实验对其性能进行评价,优化其用量,并分析其与常用压裂液的适配性.实验优选出一种改性树脂作为裂缝稳定剂,该剂可在支撑剂表面形成一层带有一定强度的黏性膜,轻微降低裂缝导流能力,但能起到稳定支撑剂充填裂缝的作用.实验分析了不同裂缝稳定剂配比下的支撑剂导流能力和防砂效果以及裂缝稳定剂与胍胶压裂液、表面活性剂压裂液(VES 压裂液)的适配性.根据导流能力和微观地层微粒侵入现象对裂缝稳定剂用量进行了优化.推荐选用质量分数为3%~5%的裂缝稳定剂处理支撑剂,并用于胍胶压裂液.模拟现场实验表明,裂缝稳定剂能保持裂缝导流能力;用稳定剂处理过的支撑剂中侵入的地层微粒明显减少.图9表1参14
針對疏鬆砂巖儲集層壓裂後裂縫容易失效的問題,優選適用于該類儲集層壓裂縫的裂縫穩定劑,通過室內實驗對其性能進行評價,優化其用量,併分析其與常用壓裂液的適配性.實驗優選齣一種改性樹脂作為裂縫穩定劑,該劑可在支撐劑錶麵形成一層帶有一定彊度的黏性膜,輕微降低裂縫導流能力,但能起到穩定支撐劑充填裂縫的作用.實驗分析瞭不同裂縫穩定劑配比下的支撐劑導流能力和防砂效果以及裂縫穩定劑與胍膠壓裂液、錶麵活性劑壓裂液(VES 壓裂液)的適配性.根據導流能力和微觀地層微粒侵入現象對裂縫穩定劑用量進行瞭優化.推薦選用質量分數為3%~5%的裂縫穩定劑處理支撐劑,併用于胍膠壓裂液.模擬現場實驗錶明,裂縫穩定劑能保持裂縫導流能力;用穩定劑處理過的支撐劑中侵入的地層微粒明顯減少.圖9錶1參14
침대소송사암저집층압렬후렬봉용역실효적문제,우선괄용우해류저집층압렬봉적렬봉은정제,통과실내실험대기성능진행평개,우화기용량,병분석기여상용압렬액적괄배성.실험우선출일충개성수지작위렬봉은정제,해제가재지탱제표면형성일층대유일정강도적점성막,경미강저렬봉도류능력,단능기도은정지탱제충전렬봉적작용.실험분석료불동렬봉은정제배비하적지탱제도류능력화방사효과이급렬봉은정제여고효압렬액、표면활성제압렬액(VES 압렬액)적괄배성.근거도류능력화미관지층미립침입현상대렬봉은정제용량진행료우화.추천선용질량분수위3%~5%적렬봉은정제처리지탱제,병용우고효압렬액.모의현장실험표명,렬봉은정제능보지렬봉도류능력;용은정제처리과적지탱제중침입적지층미립명현감소.도9표1삼14
To avoid the closure of once created fractures in unconsolidated sandstone reservoirs after fracturing, an optimum fracture stabilizer was selected through experimental evaluation, dosage optimization and analysis of its suitability with other commonly used fracturing fluids. A modified resin was selected as the fracture stabilizer, which can form an adhesive film with certain adhesion intensity on the surface of the proppant to fill fractures despite the slightly decreased conductivity. The conductivity, sand control effect, suitability with guanidine gum and viscoelastic surfactant fracturing fluids (VES) of fracture stabilizers with different ratios were evaluated in the experiment. The dosage of the fracture stabilizer was optimized according to conductivity results and sand control effect. After a comprehensive evaluation, the fracture stabilizer whose content ranges from 3% to 5% was used to process the proppant and the guanidine gum fracturing fluid. The simulation experiments show that the flow conductivity of fractures could be maintained by fracture stabilizers and in the proppant processed by stabilizers the number of particles intruding into the formation was significantly reduced.