纳滤法回收湿法冶锌污酸研究
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摘要
通过使用纳滤技术在一定条件下对硫酸锌、氯化锌和氟化钠混合溶液模拟的被氧化锌中和后的湿法冶锌工业污酸废液进行分离,通过调节不同的压力和流速找到了纳滤膜对中和后污酸分离过程中通量和截留率的影响规律,找到最优条件是压力为32 bar,流速为2 L/min。此条件下纳滤装置通量为89.09 L·h~(-1)/m~2,二价离子截率约为94%,氯离子、氟离子和钠离子截留率分别为35.61%、48.10%和24.31%,将大部分氯离子和氟离子分离,得到硫酸锌溶液。硫酸锌溶液经过净化步骤可以再进行电沉积得到金属锌。
Zinc sulphate, zinc chloride and sodium fluoride mixed solution as simulated wet zinc metallurgical industrial waste acid liquid after zinc oxide neutralization was separated by the nanofiltration technology under a certain condition, the influence of pressure and flow rate on the flux and the retention rate of the nanofiltration membrane during the waste acid separation process after the neutralization was investigated. The optimal conditions were determined as follows: the pressure 32 bar and the flow rate 2 L/min.Under above conditions, the flux of the nanofiltration device reached 89.09 L·h~(-1)/m~2, the divalent ion interception rate was about 94%,the rejection rates of chloride ion, fluoride ion, and sodium ion were 35.61%, 48.10%, and 24.31%, respectively. Most of the chloride ions and fluoride ions were separated to obtain zinc sulfate solution. The zinc sulphate solution can be further electrodeposited to obtain metallic zinc after the purification.
Zinc sulphate, zinc chloride and sodium fluoride mixed solution as simulated wet zinc metallurgical industrial waste acid liquid after zinc oxide neutralization was separated by the nanofiltration technology under a certain condition, the influence of pressure and flow rate on the flux and the retention rate of the nanofiltration membrane during the waste acid separation process after the neutralization was investigated. The optimal conditions were determined as follows: the pressure 32 bar and the flow rate 2 L/min.Under above conditions, the flux of the nanofiltration device reached 89.09 L·h~(-1)/m~2, the divalent ion interception rate was about 94%,the rejection rates of chloride ion, fluoride ion, and sodium ion were 35.61%, 48.10%, and 24.31%, respectively. Most of the chloride ions and fluoride ions were separated to obtain zinc sulfate solution. The zinc sulphate solution can be further electrodeposited to obtain metallic zinc after the purification.
引文
[1]丁学明,周素洪,叶兵,蒋海燕,王渠东,丁文江.锌铜钛合金的研究进展与应用[J].材料导报,2017,31(03):38-43+51.
[2]Wilcox G D,Gabe D R.Electrodeposited zinc alloy coatings[J].Corrosion Science,1993,35(5):1251-1258.
[3]胡焰,韩光宇,王健.微量元素锌与人体健康初探[J].当代医学,2011,17(31):152-153.
[4]杨荣林.浅析我国铅锌矿资源开发现状及可持续发展建议[J/OL].世界有色金属,2018(01):148+150
[5]龙小艺,许民.湿法冶锌新浸取技术及其进展[J].江西化工,2004(2):24-28.
[6]Wang L Y,Gui W H,Teo K L,et al.Optimal control problems arising in the zinc sulphate electrolyte purification process[J].Journal of Global Optimization,2012,54(2):307-323.
[7]Liu D F,Tao J I,Chen L.The Nanofiltration Separation Rule Study for Industrial Waste Liquid Treatment[J].Urban Environment&Urban Ecology,2002,15(5):37-39.
[8]Choi J H,Fukushi K,Yamamoto K.A submerged nanofiltration membrane bioreactor for domestic wastewater treatment:the performance of cellulose acetate nanofiltration membranes for long-term operation[J].Separation&Purification Technology,2007,52(3):470-477.
[9]方建慧,姜华,刘继全,等.纳滤膜在海水淡化中的应用研究[J].膜科学与技术,2006,26(1):50-54.
[2]Wilcox G D,Gabe D R.Electrodeposited zinc alloy coatings[J].Corrosion Science,1993,35(5):1251-1258.
[3]胡焰,韩光宇,王健.微量元素锌与人体健康初探[J].当代医学,2011,17(31):152-153.
[4]杨荣林.浅析我国铅锌矿资源开发现状及可持续发展建议[J/OL].世界有色金属,2018(01):148+150
[5]龙小艺,许民.湿法冶锌新浸取技术及其进展[J].江西化工,2004(2):24-28.
[6]Wang L Y,Gui W H,Teo K L,et al.Optimal control problems arising in the zinc sulphate electrolyte purification process[J].Journal of Global Optimization,2012,54(2):307-323.
[7]Liu D F,Tao J I,Chen L.The Nanofiltration Separation Rule Study for Industrial Waste Liquid Treatment[J].Urban Environment&Urban Ecology,2002,15(5):37-39.
[8]Choi J H,Fukushi K,Yamamoto K.A submerged nanofiltration membrane bioreactor for domestic wastewater treatment:the performance of cellulose acetate nanofiltration membranes for long-term operation[J].Separation&Purification Technology,2007,52(3):470-477.
[9]方建慧,姜华,刘继全,等.纳滤膜在海水淡化中的应用研究[J].膜科学与技术,2006,26(1):50-54.
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