基于Box-Behnken响应曲面法的硫酸钾盐垢结垢速率影响参数研究
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摘要
在硫酸钾生产过程中,伴随着母液的蒸发及反应器的循环利用,设备内壁腐蚀与结垢问题非常严重。因此,课题选取A3钢、20#钢、304不锈钢、316不锈钢4种常用化工设备钢材模拟化工设备在硫酸钾生产中的结垢腐蚀情况,以溶液的密度、搅拌速度、溶液硬度、表面活性剂为影响因素,以结垢速率为响应值,得到硫酸钾生产过程中最低结垢速率工艺参数。实验结果表明:结垢速率最低的是20#钢,其工艺参数为钙离子质量分数为0.89%、表面活性剂用量为0.09%、转速为225 r/min、溶液的密度为1.25 g/cm3,结垢速率为0.216 6 g/(h·m2)。
In the production of potassium sulfate,accompanied by evaporation of mother liquor and recycling of reactor,the problem of corrosion and scaling on the inner wall of equipment is very serious.For this reason,this work selected four chemical equipment steels in common use of A3 steel,20#steel,304 stainless steel and 316 stainless steel,to imitate the corrosion and scaling of chemical equipment in the production of potassium sulfate.In the influences of the concentration of solution,stirring speed,solution hardness and surfactant and the response values of scaling rate,the lowest scaling rate of processing parameters were obtained. Results showed that:the scaling rate of 20#steel was the lowest.The processing parameters were Ca2+mass fraction of 0.89%,the additive amount of surfactant of 0.09%,the stirring speed of 225 r/min,and the solution′s density of 1.25 g/cm3,and the scaling rate was 0.216 6 g/(h·m2) under those conditions.
In the production of potassium sulfate,accompanied by evaporation of mother liquor and recycling of reactor,the problem of corrosion and scaling on the inner wall of equipment is very serious.For this reason,this work selected four chemical equipment steels in common use of A3 steel,20#steel,304 stainless steel and 316 stainless steel,to imitate the corrosion and scaling of chemical equipment in the production of potassium sulfate.In the influences of the concentration of solution,stirring speed,solution hardness and surfactant and the response values of scaling rate,the lowest scaling rate of processing parameters were obtained. Results showed that:the scaling rate of 20#steel was the lowest.The processing parameters were Ca2+mass fraction of 0.89%,the additive amount of surfactant of 0.09%,the stirring speed of 225 r/min,and the solution′s density of 1.25 g/cm3,and the scaling rate was 0.216 6 g/(h·m2) under those conditions.
引文
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[2]华宗伟,钟宏,王帅,等.硫酸钾的生产工艺研究进展[J].无机盐工业,2015,47(4):1-2.
[3]李建生,李存法,黄昆学.硫酸钾生产工艺现状与发展展望[J].科技向导,2010(5):82,94.
[4]颜利明.硫酸钾生产工艺与我国硫酸钾工业展望[J].化学工业与工程技术,1998,19(1):28-29.
[5]陈代伟,郭亚飞,邓天龙.硫酸钾生产工艺研究现状[J].无机盐工业,2010,42(4):4-7.
[6]姜子乾,李性波.氯化钾芒硝转化法制硫酸钾工艺路线的探讨[J].企业技术开发,2011,30(11):47-48.
[7]张玉翠.芒硝法生产硫酸钾水平衡问题讨论[J].无机盐工业,2012,44(3):36-38.
[8]刘慧君,贺楚华,吴旭明,等.芒硝制取硫酸钾的新工艺研究[J].海湖盐与化工,2004,34(1):15-16.
[9]蒋炜,刘代俊.氨水介质中硫酸钾结晶界面能对结晶的影响[J].四川大学学报,2002,34(1):50-51.
[10]张宁,程芳琴,李达.反应结晶法制取颗粒硫酸钾的研究进展[J].无机盐工业,2008,40(5):6-7.
[11]Ulrich J,Frohberg P.Problems,potentials and future of industrial crystallization[J].Front.Chem.Sci.Eng.,2013,7(1):1-8.
[12]王兵,李长俊,廖柯熹,等.管道结垢原因分析及常用除垢方法[J].油气储运,2008,27(2):59-61.
[13]韩嘉平.聚驱管道腐蚀结垢机理及防护技术研究[D].黑龙江:东北石油大学,2014.
[14]张千,吉方英,徐璇.响应曲面法在反硝化生物滤池运行参数优化中的应用[J].环境科学研究,2015,28(7):1138-1141.
[15]徐影,仇天雷,韩梅琳,等.响应曲面法优化固相反硝化的工艺条件[J].环境工程学报,2013,7(2):489-493.
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