冶金废酸处理一直是行业难题,直到这款高通量耐酸纳滤膜横空出世! 水渗透系数飙到9.80 L·m-2·h-1·bar-1,对MgCl₂截留率超98%,在20%强酸里泡30天性能都稳如泰山~ 不仅抗污染还能规模化生产,直接帮企业省75%设备投资!酸液处理的痛点这下终于有解了!想看看实际生产中到底有多能打, 想了解更多构效关系和分离机理的细节,直接戳原文深入研究哦~
Treating metallurgical spent acid has always been an industry challenge , until this high-flux acid-resistant nanofiltration membrane came out of nowhere ! Its water permeability coefficient soars to 9.80 L·m⁻²·h⁻¹·bar⁻¹, with a rejection rate of over 98% for MgCl₂, and its performance remains rock-solid even after soaking in 20% strong acid for 30 days ~ It not only resists pollution but also enables large-scale production, directly helping enterprises reduce equipment investment by 75% ! The pain point of acid treatment has finally been solved ! I\'m eager to see how powerful it is in actual production, and for more details on the structure-performance relationships and separation mechanisms, just click on the original paper for in-depth research ~
#冶金废酸 #水处理黑科技 #耐酸纳滤膜#工业废水处理#膜分离技术
Treating metallurgical spent acid has always been an industry challenge , until this high-flux acid-resistant nanofiltration membrane came out of nowhere ! Its water permeability coefficient soars to 9.80 L·m⁻²·h⁻¹·bar⁻¹, with a rejection rate of over 98% for MgCl₂, and its performance remains rock-solid even after soaking in 20% strong acid for 30 days ~ It not only resists pollution but also enables large-scale production, directly helping enterprises reduce equipment investment by 75% ! The pain point of acid treatment has finally been solved ! I\'m eager to see how powerful it is in actual production, and for more details on the structure-performance relationships and separation mechanisms, just click on the original paper for in-depth research ~
#冶金废酸 #水处理黑科技 #耐酸纳滤膜#工业废水处理#膜分离技术
