摘要
印染废水中高盐分的存在要求对其水及无机盐资源实行循环利用.其中,主要含盐组成为碳酸钠与硫酸钠.在常规废水处理流程中,硫酸钠的回收备受重视,而经济价值较高的碳酸钠回收却被忽略.本研究基于纳滤技术,针对混盐溶液与实际印染废水实施碳酸钠与硫酸钠的分离实验.通过pH值调节实现CO_(3)^(2)和HCO_(3)^(-)的转化,纳滤工艺实现HCO_(3)^(-)与SO_(4)^(2-)分离,进而蒸发得到的固体盐回用于染布工序.实验表明,当溶液pH为8.1时,CO_(3)^(2-)转化为HCO_(3)^(-)的转化率最大,有利于纳滤分盐;进水压力小更有利于HCO_(3)^(-)的分离回收,混盐溶液中试试验分离盐效果明显,SO_(4)^(2-)被高效截留,HCO_(3)^(-)呈现负截留状态.印染废水分盐试验中,纳滤装置对SO_(4)^(2-)截留率可达97.58%,HCO_(3)^(-)截留率为-57.07%,分离度可达220,分盐效果显著.得到的固体碳酸钠和硫酸钠盐回用染布,染布色差均小于1.纳滤膜技术在处理印染废水及盐分资源回收方面展现出可行性,但后续仍需对工艺运行参数进一步优化与深入探究.
The existence of high salinity in printing and dyeing wastewater requires the recycling of water and inorganic salt resources.Among them,the main salt compositions are sodium carbonate and sodium sulfate.In the conventional wastewater treatment process,the recovery of sodium sulfate is highly valued,while the recovery of sodium carbonate with high economic value is neglected.In this study,based on nanofiltration technology,the separation experiment of sodium carbonate and sodium sulfate was carried out for mixed salt solution and actual printing and dyeing wastewater.The conversion of CO_(3)cm^(2) and HCO_(3)^(-) is realized by pH adjustment,and the separation of HCO_(3)^(-) and SO_(4)^(2-)is realized by nanofiltration process,and then the solid salt obtained by evaporation is reused in the dyeing process.The results show that when the pH value of the solution is 8.1,the conversion rate of CO_(3)^(2-)to HCO_(3)^(-) is the highest,which is beneficial to nanofiltration.The small influent pressure is more conducive to the separation and recovery of HCO_(3)^(-).The effect of salt separation in the pilot test of mixed salt solution is obvious.SO_(4)^(2-)is efficiently intercepted,and HCO:shows a negative interception state.In the salt separation test of printing and dyeing wastewater,the rejection rate of nanofiltration device to SO_(4)^(2-)can reach 97.58%,the rejection rate of HCO_(3)^(-)can reach-57.07%,and the separation degree can reach 220.The salt separation effect is remarkable.The obtained solid sodium carbonate and sodium sulfate were reused to dye the cloth,and the color difference of the dyed cloth was less than 1.Nanofiltration membrane technology shows feasibility in the treatment of printing and dyeing wastewater and salt resource recovery,but further optimization and in-depth exploration of process operation parameters are still needed.
作者
李忠华
常娜
陈董根
谢厚鹏
刘鹏
王海涛
LI Zhonghua;CHANG Na;CHEN Donggen;XIE Houpeng;LIU Peng;WANG Haitao(School of Environmental Science and Engineering,Tiangong University,Tianjin 300387,China;School of Chemical Engineering and Technology,Tiangong University,Tianjin 300387,China;Zhejiang Jinmo Environmental Technology Co.,Ltd.,Shaoxing 312000,China)
出处
《膜科学与技术》
北大核心
2025年第1期129-136,145,共9页
Membrane Science and Technology
基金
山东省重点研发计划项目(2022CXGC020416)
兵团科技计划项目(2023AB043)
浙江省重点研发计划项目(2024C03133)。
关键词
纳滤
分盐
碳酸钠
硫酸钠
回用染布
gas separation membrane
radioxenon
permeation performance
separation performance
作者简介
第一作者:李忠华(1998-),男,内蒙古呼伦贝尔人,硕士研究生,主要研究方向为印染废水成分分析、工业废水处理;通讯作者:刘鹏,E-mail:liup@jinmo.com.cn;通讯作者:王海涛,E-mail:wanghaitao@tiangong.edu.cn。
