摘要
氯酸钾主要的处置方法有两种,包括焚烧处置、氧化还原处置,焚烧处置产生的废气会造成环境二次污染,且控制不好极易造成爆炸,常规的氧化还原处置方式针对于处置大量的氯酸钾难度较大,由于氯酸钾溶解度较低,且具有爆炸性,通过加热等方式促进溶解也易造成爆炸,同时处置后产生的可溶性盐含量较高,后续处置难度较大,氯酸钾优化处置技术,从改进处置装置,协同处置钡盐,减少氯酸盐处置后产生的可溶性盐含量,改进了处置废液氯酸根检测方法,并探索出了一种现场快速检测方法。
There are two main disposal methods of potassium chlorate,Including incineration disposal,redox disposal,The waste gas generated by incineration and disposal will cause secondary environmental pollution,And the control is not easy to cause an explosion,Conventional redox disposal is more difficult to dispose of large amounts of potassium chlorate,Due to the low solubility of potassium chlorate,And it is explosive,Promoting dissolution by heating and other means is also prone to explosion,The higher content of soluble salt produced after simultaneous disposal,Subsequent disposal is more difficult,Optimal disposal technology of potassium chlorate,From the improved disposal devices,Collaborative disposal of barium salts,Reduce the soluble salt content produced after chlorate disposal,Improve the detection method of disposal of waste liquid chlorate,A field rapid field detection method was also explored.
作者
贺平
伍剑兵
宁茂书
王成俊
周逍
凡成万
He Ping;Wu Jianbing;Ning Maoshu;Wang Chengjun;Zhou Xiao;Fan Chengwan(China Energy Conservation(Panzhihua)Clean Technology Development Co.,Ltd.,Panzhihua 617000,China)
出处
《山东化工》
CAS
2023年第14期261-263,267,共4页
Shandong Chemical Industry
关键词
氯酸钾
钡盐
协同处置
砒霜
检测方法
chlorate of potash
barium salt
collaborative disposal
arsenic
detection method
