石油实验地质
石油實驗地質
석유실험지질
EXPERIMENTAL PETROLEUM GEOLOGY
2013年
5期
570-573
,共4页
彭彩珍%孟立新%郭平%钟功祥%孙雷
彭綵珍%孟立新%郭平%鐘功祥%孫雷
팽채진%맹립신%곽평%종공상%손뢰
三维物理模型%实验装置%高温高压%水驱油实验%聚合物驱油实验
三維物理模型%實驗裝置%高溫高壓%水驅油實驗%聚閤物驅油實驗
삼유물리모형%실험장치%고온고압%수구유실험%취합물구유실험
3 d physical model%experiment device%high temperature and pressure%oil/water displacement ex-periment%polymer flooding experiment
针对小岩心不能模拟注采井网驱替实验、填砂模型不能模拟低渗透储层和高压驱替实验的问题,研制了一套能在高温高压下进行不同渗透率储层多层组合的岩心、多口直井和水平井组成的注采井网、大尺度三维物理模型驱替实验装置,能进行不同驱替介质和吞吐实验研究。利用该实验装置开展了纵向三层组合的正韵律和反韵律模型、平面5个渗透带的五点注采井网模型、以及直井和水平井组成的十三点注采井网模型在高温高压下的水驱和聚合物驱油实验研究,得到了平面和纵向非均质性对水驱油效果的影响程度、直井和水平井的水驱油效果以及聚合物驱油效果。通过该装置模拟实验可为油田注采井网调整和注入开发方式调整提供技术指导。
針對小巖心不能模擬註採井網驅替實驗、填砂模型不能模擬低滲透儲層和高壓驅替實驗的問題,研製瞭一套能在高溫高壓下進行不同滲透率儲層多層組閤的巖心、多口直井和水平井組成的註採井網、大呎度三維物理模型驅替實驗裝置,能進行不同驅替介質和吞吐實驗研究。利用該實驗裝置開展瞭縱嚮三層組閤的正韻律和反韻律模型、平麵5箇滲透帶的五點註採井網模型、以及直井和水平井組成的十三點註採井網模型在高溫高壓下的水驅和聚閤物驅油實驗研究,得到瞭平麵和縱嚮非均質性對水驅油效果的影響程度、直井和水平井的水驅油效果以及聚閤物驅油效果。通過該裝置模擬實驗可為油田註採井網調整和註入開髮方式調整提供技術指導。
침대소암심불능모의주채정망구체실험、전사모형불능모의저삼투저층화고압구체실험적문제,연제료일투능재고온고압하진행불동삼투솔저층다층조합적암심、다구직정화수평정조성적주채정망、대척도삼유물리모형구체실험장치,능진행불동구체개질화탄토실험연구。이용해실험장치개전료종향삼층조합적정운률화반운률모형、평면5개삼투대적오점주채정망모형、이급직정화수평정조성적십삼점주채정망모형재고온고압하적수구화취합물구유실험연구,득도료평면화종향비균질성대수구유효과적영향정도、직정화수평정적수구유효과이급취합물구유효과。통과해장치모의실험가위유전주채정망조정화주입개발방식조정제공기술지도。
In view of the difficulty of displacement simulation of injection-production pattern in small core sample and the difficulty of displacement simulation of low-permeability reservoir under high pressure in sand-packed model, a new experiment device for 3d physical simulation has been proposed. It deals with cores of different per-meability and injection-production pattern of horizontal and straight wells. Water flooding and polymer flooding ex-periments have been made under high pressure and temperature. Positive-rhythm and counter-rhythm models com-bined of 3 vertical layers, 5-spots injection-production pattern of 5 horizontal permeability zones, as well as 13-spots injection-production pattern of straight and horizontal wells have been studied. The influence of horizontal and vertical heterogeneity on oil/water displacement, the effect of straight and horizontal wells on oil/water dis-placement, as well as the effect of polymer flooding have been concluded. Experiment with this device may provide direct technical guidance for oil field flood pattern modification and injection development mode modification.
