Special Column of 60 Years Anniversary

Advanced filtration and separation technology used to promote development of inorganic salt industry

  • Lihong Du ,
  • Qixin Zhu
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  • 1. Shanghai Research Institute of Chemical Industry Co.,Ltd.,Shanghai 200062,China
    2. Chemical Industry Academy,Tianjin University
    3. Filtration and Separation Engineering Research Center in the National Petroleum and Chemical Industry

Received date: 2020-08-29

  Online published: 2020-11-24

Abstract

The development course of China′s inorganic salt industry which has made great achievements in recent decades was reviewed and analyzed briefly,and the hidden problems behind the achievements,namely: current development of the inorganic salt industry has excessive resource consumption,the gap between green development and pollution control& sustainable development;lack of clean production and innovative application of industrial big data;new ideas and new technology in development also need to be promoted as soon as possible,were discussed.The progress of filtration and separation technology in recent years and its application prospect in the development of inorganic salt industry were also introduced.

Cite this article

Lihong Du , Qixin Zhu . Advanced filtration and separation technology used to promote development of inorganic salt industry[J]. Inorganic Chemicals Industry, 2020 , 52(10) : 18 -24 . DOI: 10.11962/1006-4990.2020-0493

References

[1] 李连成, 应自卫, 李星玥, 等. 无机盐工业发展历程及发展趋势[J]. 无机盐工业, 2019,51(7):8-14.
[2] 宁延生. 无机盐工艺学[M]. 北京: 化学工业出版社, 2013.
[3] 何直林. 在技术进步的基础上推进无机盐工业的迅速发展[J]. 无机盐工业, 1983(11):7-22.
[4] 龚家竹. 全球饲料磷酸盐生产技术与发展趋势[C]// 天津:2015中国无机盐学术年会论文汇编, 2017: 1-15.
[5] 都丽红, 朱企新, 李秋萍, 等. 过滤与分离技术在清洁生产中的应用研究[C]// 厦门:全国第十二届非均相分离学术交流会暨2015厦门台湾两地过滤与分离技术交流大会论文集, 2015: 32-39.
[6] 吉可明, 荀家瑶, 苏原, 等. 大数据技术及其在化工领域的应用和展望[J]. 现代化工, 2020,40(7):1-4,10.
[7] 钟福磊. 工业大数据环境下的混合故障诊断模型研究[D]. 西安:西安电子科技大学, 2015.
[8] 徐潇, 赵洪涛, 卢凯亮, 等. BDMOS:大数据挖掘优化系统及其在化工过程优化中的应用[J]. 计算机与应用化学, 2018,35(6):433-439.
[9] 李昱, 方俊伟. 化工行业基于大数据驱动的工艺操作优化技术研究[J]. 自动化博览, 2019(2):44-48.
[10] 都丽红, 朱企新, 吴芳. 人工智能引领过滤分离专业创新发展[C]// 德州:第一屆全国过滤与分离学术交流会暨一届三次过滤与分离产业技术协同创新研讨会论文集, 2019: 8-17.
[11] 卢寿慈. 工业悬浮液——性能、调制及加工[M]. 北京: 化学工业出版社, 2003.
[12] Du L H, Zhu Q X. An Overview of the situation,development and opportunity of China filtration and separation[C]// Houston:Oil & Gas and Chemical Processing Filtration and Separations Conference in Houston, 2014.
[13] 许新芳, 周小平, 刘正锋, 等. 苛化提纯盐湖锂矿回收含氟碳酸锂的研究[J]. 无机盐工业, 2020,52(7):62-65.
[14] 吴朝香. 盐湖尾矿高效综合利用产业化关键技术研究[J]. 无机盐工业, 2019,51(2):40-41,71.
[15] 李静海, 欧阳平凯, 费维扬, 等. 化学工程手册[M]. 北京: 化学工业出版社, 2019.
[16] Tiller F M, Crump J R. Solid-liquid separation:an overview[J]. Chemical Engineering Progress, 1977,73(10):65-75.
[17] Rushton A, Ward A S, Holdich R G. 固液两相过滤及分离技术[M]. 朱企新, 许莉,谭蔚,等译.北京:化学工业出版社, 2005.
[18] Wakeman R J, Tarleton E S. Filtration equipment selection modelling and process simulation[M]. London:Elsevier Science Ltd,First Edition London England, 1999.
[19] Du L H, Zhu Q X, Li W P, et al. A study of the theory and practice of filtration of difficult to be filtered material[C]// Taiwan:The12th first World Filtration Congress,Taiwan China , 2016.
[20] 都丽红. 对难过滤物料强化过滤技术的研究及应用[J]. 化工机械, 2011,38(2):149-154.
[21] Du L H, Zhu Q X, Wang S Y, et al. The application research of the pretreatment technology and energy.saving technology of the filtering process[C]// Houston:Oil & Gas and Chemical Processing Filtration and Separations Conference in Houston, 2014.
[22] Holland F A. 化工流体流动[M].王绍亭,李功样,译. 西安: 西安交通大学出版社, 1985.
[23] Svavovsky L. 固液分离[M].朱企新,金鼎五,译. 北京: 化学工业出版社, 1990.
[24] 都丽红. 过滤介质的发展、精度表征与正确使用(1)[J]. 化工机械, 2008,35(3):176-182.
[25] 周翔, 隋贤栋, 黄肖容. 高温气体过滤除尘材料的研究进展[J]. 材料开发与应用, 2008,23(6):99-102.
[26] Gopal R, Kaur S, Feng C Y, et al. Electrospun nanofibrous polysulfone membranes as pre-filters:Particulate removal[J]. Journal of Membrane Science, 2007,289(1):210-219.
[27] 都丽红. PM2.5和气体净化技术[M]. 北京: 化学工业出版社, 2019.
[28] 姚公弼. 液体过滤设备见闻[J]. 过滤与分离通讯, 2020(3):33-34.
[29] 都丽红, 李文苹, 吴芳, 等. 滤饼过滤过程研究的历程与计算机模拟分析[C]// 深圳:第十一届全国非均相分离学术交流会论文集, 2013: 19-29.
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