CN104525102A - 一种去除废水中重金属离子的伊利石吸附剂改性方法 - Google Patents

一种去除废水中重金属离子的伊利石吸附剂改性方法 Download PDF

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CN104525102A
CN104525102A CN201410732215.2A CN201410732215A CN104525102A CN 104525102 A CN104525102 A CN 104525102A CN 201410732215 A CN201410732215 A CN 201410732215A CN 104525102 A CN104525102 A CN 104525102A
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heavy metal
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王现丽
郭一飞
吴俊峰
刘盼
殷世强
扶咏梅
宋丰明
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Henan University of Urban Construction
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    • B01J20/0203Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof comprising inorganic material comprising compounds of metals not provided for in B01J20/04
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Abstract

本发明涉及一种去除废水中重金属离子的伊利石吸附剂改性方法,将伊利石原矿粉碎后与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品;本发明主要应用于废水中重金属离子的去除,应用前景广泛,去除效果好,投资耗能小,经济适用。

Description

一种去除废水中重金属离子的伊利石吸附剂改性方法
技术领域
本发明涉及环境保护领域,具体涉及粘土矿物伊利在去除废水中重金属离子方面的推广和应用,特别涉及一种去除废水中重金属离子的伊利石吸附剂改性方法。
背景技术
重金属离子主要是Cr6+、U6+、Te3+、Co3+、Se6+、Pu3+、Hg2+,Mn4+等。重金属,特别是汞、镉、铅、铬等具有显著和生物毒性。它们在水体中不能被微生物降解,而只能发生各种形态相互转化和分散、富集过程。重金属指比重大于5的金属,一般指密度大于4.5克每立方厘米的金属。约有45种,如铜、铅、锌、铁、钴、镍、锰、镉、汞、钨、钼、金、银等。尽管锰、铜、锌等重金属是生命活动所需要的微量元素,但是大部分重金属如汞、铅、镉等。并非生命活动所必须,而且所有重金属超过一定浓度都对人体有毒。
随着全球经济的迅速发展,人类对水资源的需求量越来越大,但同时水资源的污染问题也日益严重,其中重金属污染是水污染中较为普遍的一种类型。重金属污染物难以治理,它们在水体中具有相当高的稳定性和难降解性。重金属在水体中积累到一定的限度就会对水体、水生植物和水生动物系统产生严重危害,并可能通过食物链直接或间接地影响到人类的自身健康。因此为了保证水资源的有效利用和人类健康,应对受重金属离子污染的废水进行处理。
伊利石黏土的用途很广,在陶瓷工业上利用伊利石黏土作为生产高压电瓷、日用瓷的原料,在化工工业上用作造纸、橡胶、油漆的填料,在农业上作为制取钾肥等,其它粘土矿在污水处理方面应用的比较多,但对于伊利石的改性研究还比较欠缺。同时伊利石黏土是分布最广的一种黏土岩。
目前工业界主要是用化学沉淀、电解、离子交换、膜分离、活性碳和硅胶吸附、生物絮凝、生物吸附等来降低废水中的重金属的浓度。也有一些其他技术,但对废水中重金属的去除效果都参差不齐,而且投资也都很大。
因此,提供一种制备方法简单,去除效果好,投资耗能小的去除废水中重金属离子的伊利石吸附剂改性方法,具有广泛的市场前景。
发明内容
针对现有技术的不足,本发明提供一种制备方法简单,去除效果好,投资耗能小的去除废水中重金属离子的伊利石吸附剂改性方法。
本发明的技术方案是这样实现的:一种去除废水中重金属离子的伊利石吸附剂改性方法,将伊利石原矿粉碎后与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品。
所述的粉碎后的伊利石原矿粒度不小于100目。
本发明具有如下的积极效果:本发明主要应用于废水中重金属离子的去除,应用前景广泛,去除效果好,投资耗能小,经济适用。
具体实施方式
一种去除废水中重金属离子的伊利石吸附剂改性方法,将伊利石原矿粉碎后与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品。
所述的粉碎后的伊利石原矿粒度不小于100目。
实施例1:将200目的伊利石原矿与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品。
在应用到实际废水处理过程中,50mL和300mg/L的含Pb2+废水中,投加改性后的活化伊利石1.55g,经反应后,Pb2+浓度降到0mg/L,符合国家重金属污染物排放标准,可以达标排放。
实施例2:将500目的伊利石原矿与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品。
在应用到实际废水处理过程中,50mL和300mg/L的含Pb2+废水中,投加改性后的活化伊利石1.55,经反应后,Pb2+浓度降到0mg/L,符合国家重金属污染物排放标准,可以达标排放。
实施例3:将1000目的伊利石原矿与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品。
在应用到实际废水处理过程中,50mL和300mg/L的含Pb2+废水中,投加改性后的活化伊利石1.5g,经反应后,Pb2+浓度降到0mg/L,符合国家重金属污染物排放标准,可以达标排放。

Claims (2)

1.一种去除废水中重金属离子的伊利石吸附剂改性方法,其特征在于:将伊利石原矿粉碎后与硫酸锌按照1:1的比例混合,混合均匀后放置到马弗炉内,设定烘焙温度为600℃,焙烧两小时后取出,并充分碾磨,得到混合粉末,然后用pH为5.3的稀盐酸洗涤混合粉末,直到检测到其水溶液中无硫酸根离子为止,最后离心烘干制得成品。
2.根据权利要求1所述的去除废水中重金属离子的伊利石吸附剂改性方法,其特征在于:所述的粉碎后的伊利石原矿粒度不小于100目。
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CN105170124A (zh) * 2015-10-20 2015-12-23 河南城建学院 一种重金属离子吸附剂伊利石的改性方法
CN106390919A (zh) * 2016-12-05 2017-02-15 郑州丽福爱生物技术有限公司 一种染料吸附剂及其制备方法和应用
CN106552607A (zh) * 2016-12-05 2017-04-05 郑州丽福爱生物技术有限公司 一种吸附重金属的过滤材料及其制备方法和应用
CN106693515A (zh) * 2016-12-05 2017-05-24 郑州丽福爱生物技术有限公司 一种具有吸附和固定砷的过滤材料及其制备方法和应用
CN106745447A (zh) * 2016-11-25 2017-05-31 南宁市黑晶信息技术有限公司 一种重金属污水处理用絮凝剂
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CN107620207A (zh) * 2017-09-12 2018-01-23 吉林大学 一种基于伊利石矿物的水性抗紫外整理液的制备方法

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CN105170124A (zh) * 2015-10-20 2015-12-23 河南城建学院 一种重金属离子吸附剂伊利石的改性方法
CN106745447A (zh) * 2016-11-25 2017-05-31 南宁市黑晶信息技术有限公司 一种重金属污水处理用絮凝剂
CN106390919A (zh) * 2016-12-05 2017-02-15 郑州丽福爱生物技术有限公司 一种染料吸附剂及其制备方法和应用
CN106552607A (zh) * 2016-12-05 2017-04-05 郑州丽福爱生物技术有限公司 一种吸附重金属的过滤材料及其制备方法和应用
CN106693515A (zh) * 2016-12-05 2017-05-24 郑州丽福爱生物技术有限公司 一种具有吸附和固定砷的过滤材料及其制备方法和应用
CN106732448A (zh) * 2016-12-05 2017-05-31 郑州丽福爱生物技术有限公司 一种重金属的吸附材料及其制备方法和应用
CN107620207A (zh) * 2017-09-12 2018-01-23 吉林大学 一种基于伊利石矿物的水性抗紫外整理液的制备方法
CN107620207B (zh) * 2017-09-12 2020-10-30 吉林大学 一种基于伊利石矿物的水性抗紫外整理液的制备方法

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