机译:绿色合成磁铁矿@ SiO2 @黄原纳米复合材料及其在增强的储油中的应用:IFT减少和润湿性改变
Department of Petroleum Engineering Faculty of Engineering Soran University Soran Kurdistan Region Iraq Department of Petroleum Engineering College of Engineering The American University of Kurdistan Duhok Kurdistan Region Iraq;
Department of Petroleum Engineering Abadan Faculty of Petroleum Engineering Petroleum University of Technology (PUT) Abadan Iran;
Department of Petroleum Engineering Abadan Faculty of Petroleum Engineering Petroleum University of Technology (PUT) Abadan Iran;
Department of Nutrition Cihan University-Erbil Kurdistan Region Iraq Scientific Research Center Soran University Erbil Kurdistan Region Iraq;
School of Engineering Edith Cowan University Joondalup WA 6027 Australia;
Green synthesis; Nanocomposite; Nanofluid; Alocasia macrorrhiza; Magnetite; Silicon dioxide;
机译:生物表面活性剂在提高润湿性碳酸盐油采收率中改变润湿性和降低IFT的应用
机译:CUO @ FE3O4 @ Xantan Nanocomposites的绿色合成及其在考虑IFT和润湿性行为来增强溢油的应用
机译:Vitagnus植物提取物对利用界面张力(IFT)降低和润湿性改变机制增强耐油恢复过程效果的实验研究
机译:表面活性剂增强来自碎油湿碳酸盐的油回收:低IFT和润湿性改变的影响
机译:通过界面张力降低和润湿性改变模拟从油湿岩心驱油。
机译:纳米流体和表面活性剂对重油回收和油湿方解石润湿性的协同作用
机译:通过减少和润湿性改变,对L-Arg和L-Cys生态辅助表面活性剂的实验研究
机译:阿拉斯加油藏润湿状态的表征和改变,以提高采收率(包括基于循环水注入的范围内扩展 - 用于提高采收率的脉冲水驱)