中国石油大学学报(自然科学版)
中國石油大學學報(自然科學版)
중국석유대학학보(자연과학판)
Journal of China University of Petroleum (Edition of Natural Science)
2015年
5期
173-182
,共10页
何金钢%王德民%宋考平%袁琳
何金鋼%王德民%宋攷平%袁琳
하금강%왕덕민%송고평%원림
泡沫粒径%发泡多孔介质%恒速压汞%扰动单元%最小表征单元
泡沫粒徑%髮泡多孔介質%恆速壓汞%擾動單元%最小錶徵單元
포말립경%발포다공개질%항속압홍%우동단원%최소표정단원
bubble size%foam porous media%constant speed mercury injection%disturbance unit%minimum characterization of unit
通过泡沫粒径测量实验和发泡多孔介质的恒速压汞实验研究不同长度、不同孔隙结构发泡多孔介质的发泡效果,确定泡沫粒径的最小表征单元和泡沫生成稳定时需要的“扰动单元”数量。结果表明:当单幅图像中的泡沫数量高于120时,泡沫粒径的变异系数将趋于稳定,能够消除泡沫粒径的影响;采用扰动单元和扰动单位的概念能更能准确地从泡沫产生机理上评价发泡多孔介质的发泡能力,且当扰动单元数量达到100±20个时,泡沫的变异系数小于0.5,泡沫的粒径均质程度较好;泡沫平均粒径约为主流喉道直径的1.23~1.51倍,均小于平均孔隙直径,在相同的多孔介质中一旦产生能够起到较好的封堵作用。
通過泡沫粒徑測量實驗和髮泡多孔介質的恆速壓汞實驗研究不同長度、不同孔隙結構髮泡多孔介質的髮泡效果,確定泡沫粒徑的最小錶徵單元和泡沫生成穩定時需要的“擾動單元”數量。結果錶明:噹單幅圖像中的泡沫數量高于120時,泡沫粒徑的變異繫數將趨于穩定,能夠消除泡沫粒徑的影響;採用擾動單元和擾動單位的概唸能更能準確地從泡沫產生機理上評價髮泡多孔介質的髮泡能力,且噹擾動單元數量達到100±20箇時,泡沫的變異繫數小于0.5,泡沫的粒徑均質程度較好;泡沫平均粒徑約為主流喉道直徑的1.23~1.51倍,均小于平均孔隙直徑,在相同的多孔介質中一旦產生能夠起到較好的封堵作用。
통과포말립경측량실험화발포다공개질적항속압홍실험연구불동장도、불동공극결구발포다공개질적발포효과,학정포말립경적최소표정단원화포말생성은정시수요적“우동단원”수량。결과표명:당단폭도상중적포말수량고우120시,포말립경적변이계수장추우은정,능구소제포말립경적영향;채용우동단원화우동단위적개념능경능준학지종포말산생궤리상평개발포다공개질적발포능력,차당우동단원수량체도100±20개시,포말적변이계수소우0.5,포말적립경균질정도교호;포말평균립경약위주류후도직경적1.23~1.51배,균소우평균공극직경,재상동적다공개질중일단산생능구기도교호적봉도작용。
The foaming effect of porous media with different length and pore structure was studied using the bubble size meas-urement and foam porous medium constant speed mercury injection, through which the minimum characterization of bubble size and the amount of"disturbance unit" needed for stable bubble generation were determined. The results show that when the numbers of bubbles in a single image are more than 120, the variation coefficient of bubble particle size will stabilize, and the influence of bubble particle size can be eliminated. Using perturbation and disturbance units can be more accurate e-valuation from the mechanism of bubble foam foaming capacity of porous media. It is found that when disturbance unit quanti-ty reaches to 100±20, and the bubble variation coefficient is less than 0. 5, the bubble size homogeneous degree is better. Also the average particle size is 1. 23-1. 51 times larger than the bubble mainstream throat diameter, which is less than the average pore diameter. Therefore, the foam can have good blocking capability once it can be generated in the same porous medium.