期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
3D inner-outer asymmetric sponge for enormous-volume emulsion wastewater treatment based on a new“demulsification-transport”mechanism
1
作者 Ruixiang Qu Shuaiheng Zhao +5 位作者 Na Liu Xiangyu Li Huajun Zhai Ya'nan Liu Yen Wei Lin Feng 《Green Energy & Environment》 SCIE EI CAS CSCD 2023年第5期1398-1408,共11页
Although oily wastewater treatment realized by superwetting materials has attracted heightened attention in recent years,how to treat enormous-volume emulsion wastewater is still a tough problem,which is ascribed to t... Although oily wastewater treatment realized by superwetting materials has attracted heightened attention in recent years,how to treat enormous-volume emulsion wastewater is still a tough problem,which is ascribed to the emulsion accumulation.Herein,to address this problem,a material is presented by subtly integrating chemical demulsification and 3D inner-outer asymmetric wettability to a sponge substrate,and thus wettability gradient-driven oil directional transport for achieving unprecedented enormous-volume emulsion wastewater treatment is realized based on a“demulsification-transport”mechanism.The maximum treatment volume realized by the sponge is as large as 3 L(2.08×10^(4) L per cubic meter of the sponge)in one cycle,which is about 100 times of the reported materials.Besides,owing to the large pore size of the sponge,9000 L m^(2)h^(-1)(LMH)separation flux and 99.5%separation efficiency are realized simultaneously,which overcomes the trade-off dilemma.Such a 3D inner-outer asymmetric sponge displaying unprecedented advantage in the treatment volume can promote the development of the oily wastewater treatment field,as well as expand the application prospects of superwetting materials,especially in continuous water treatment. 展开更多
关键词 Enormous-volume emulsion treatment Inner-outer asymmetric wettability Demulsification-transport mechanism high separation efficiency
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部