INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
|
|
|
|
|
Research Advances of Matter Extraction Using Microchannels |
QI Yabing1,*, JIA Honglei2
|
1 School of Chemistry and Chemical Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China 2 Quality Assurance Department, Zhejiang Xianfeng Technologies Co., Ltd., Taizhou 317000, Zhejiang, China |
|
|
Abstract Compared to traditional extractor, microchannel extractor has more obvious surface/interfacial effect, stronger process controllability, larger interfacial area, shorter phase equilibrium time, higher extraction efficiency, higher equipment integration, smaller scale-up effect and higher security. It has aroused widespread concern about extraction in microchannels due to these advantages. Mixed microstructure and flow patterns of microchannel extractors are introduced firstly. Then, research advances of extraction in mircochannels are reviewed. Furthermore, the existing problems of extraction in mircochannels are analyzed. Finally, the development trends of extraction in mircochannels are discussed. It can provide direction and guidance for the subsequent research.
|
Published: 10 March 2024
Online: 2024-03-18
|
|
Fund:Scientific Research Project of Beilin District of Xi'an City (GX2323), Talent Foundation of Xi'an University of Architecture and Technology (RC1714), Youth Foundation of Xi'an University of Architecture and Technology (QN1509) , and Innovation and Entrepreneurship Program for College Students of Xi'an University of Architecture and Technology (X2022189). |
|
|
1 Wang Q Q. Study on the application of a clustered countercurrent-flow micro-channel reaction in liquid-liquid extraction. Master's Thesis, Beijing University of Chemical Technology, China, 2018(in Chinese). 王倩倩. 集束式对流微通道反应器在液液萃取中的应用研究. 硕士学位论文, 北京化工大学, 2018. 2 Suryawanshi P L, Gumfekar S P, Bhanvase B A, et al. Chemical Engineering Science, 2018, 189, 431. 3 Dominguez M I, Centeno M A, Martinez T M, et al. Chemical Engineering Research and Design, 2021, 171, 13. 4 Zhang H, Yu Z Y, Su Y H. Chemical Industry and Engineering Progress, 2020, 39(12), 4908(in Chinese). 张红, 余肇誉, 苏远海. 化工进展, 2020, 39(12), 4908. 5 Luo G S, Wang K, Xu J H, et al. Scientia Sinica Chimica, 2014, 44(9), 1404(in Chinese). 骆广生, 王凯, 徐建鸿, 等. 中国科学:化学, 2014, 44(9), 1404. 6 Liu Z L, Zhang P F. Chemical Industry and Engineering Progress, 2016, 35(1), 10(in Chinese). 刘兆利, 张鹏飞. 化工进展, 2016, 35(1), 10. 7 Wang K, Li L T, Xie P, et al. Reaction Chemistry & Engineering, 2017, 2(5), 611. 8 Ciceri D, Perera J M, Stevens G W. Journal of Chemical Technology and Biotechnology, 2014, 89, 771. 9 Wang K, Luo G S. Chemical Engineering Science, 2017, 169, 18. 10 Sattari-Najafabadi M, Esfahany M N, Wu Z, et al. Chemical Engineering Journal, 2017, 322, 328. 11 Yagodnisyna A A, Kovalevab A V, Bilsky A V. Chemical Engineering Research and Design, 2020, 153, 391. 12 Matsuoka A, Mae K. Chemical Engineering & Processing: Process Intensification, 2021, 160, 108297. 13 Yagodnitsyna A A, Kovalev A V, Bilsky A V. Chemical Engineering Journal, 2016, 303, 547. 14 Jovanović J, Rebrov E V, Nijhuis T A, et al. Industrial & Engineering Chemistry Research, 2012, 51, 1015. 15 Kashid M, Kiwi-Minsker L. Chemical Engineering and Processing, 2011, 50, 972. 16 Tsaoulidis D, Angeli P. Chemical Engineering Journal, 2015, 262, 785. 17 Xu B J, Cai W F, Liu X L, et al. Chemical Engineering Research and Design, 2013, 91, 1203. 18 Sattari-Najafabadi M, Esfahany M N, Wu Z, et al. AIChE Journal, 2017, 63(11), 5019. 19 Ghaini A, Mescher A, Agar D W. Chemical Engineering Science, 2011, 66, 1168. 20 Tang J, Zhang X B, Cai W F, et al. Chemical Industry and Engineering Progress, 2013, 32(8), 1743(in Chinese). 唐静, 张旭斌, 蔡旺锋, 等. 化工进展, 2013, 32(8), 1743. 21 Plouffe P, Roberge D M, Sieber J, et al. Chemical Engineering Journal, 2016, 285, 605. 22 Le T, Xiao B Q, Ju S H, et al. Hydrometallurgy, 2019, 183, 79. 23 Xie W B, Zhang L B, Yang J Y, et al. Chemical Engineering & Proces-sing: Process Intensification, 2019, 143, 107562. 24 Jin N, Yue J, Zhao Y C, et al. Chemical Engineering Journal, 2021, 413, 127419. 25 Gürsel I V, Kurt S K, Adlders J, et al. Chemical Engineering Journal, 2016, 283, 855. 26 Zhang L H, Hessel V, Peng J H, et al. Chemical Engineering Journal, 2017, 307, 1. 27 Susanti I, Winkelman J G M, Schuur B, et al. Industrial & Engineering Chemistry Research, 2016, 55, 4691. 28 Xie T L, Chen M X, Xu C, et al. Chemical Engineering Journal, 2019, 356, 382. 29 Zhang L H, Hessel V, Peng J H. Chemical Engineering Journal, 2018, 332, 131. 30 Cheng K P. Flow/mixing characteristics and applications of countercurrent-flow microchannel reactors. Ph. D. Thesis, Beijing University of Chemical Technology, China, 2020(in Chinese). 程鵾鹏. 对流微通道反应器流动混合特性与应用研究. 博士学位论文, 北京化工大学, 2020. 31 Yin S H, Zhang L B, Peng J H, et al. Chemical Engineering and Processing, 2015, 91, 1. 32 Cao Z, Wu Z, Sunden B. Chemical Engineering Journal, 2018, 344, 604. 33 Liu C. Study on Interfacial dynamics for aqueous glycerol solution/ionic liquid two-phase flow in microchannels. Master's Thesis, Tianjin University, China, 2018(in Chinese). 刘偲. 微通道内离子液体-甘油水溶液两相界面动力学的研究. 硕士学位论文, 天津大学, 2018. 34 Darekar M, Sen N, Singh K K, et al. Hydrometallurgy, 2014, 144-145, 54. 35 龙威, 王继尧, 陈娅君, 等. 中国专利, CN209451369U, 2019. 36 Marsousi S, Karimi-sabet J, Moosavian M A, et al. Chemical Enginee-ring Journal, 2019, 356, 492. 37 Wang Y B, Li J, Jin Y, et al. Separation and Purification Technology, 2018, 207, 158. 38 Zhang J W, Tian X H, Kuang C J. Journal of Chemical Engineering of Chinese Universities, 2013, 27(6), 952(in Chinese). 张建文, 田小花, 况春江. 高校化学工程学报, 2013, 27(6), 952. 39 Ma R, Fan C X, Luo J H, et al. Chemical Industry and Engineering Progress, 2020, 39(8), 3007(in Chinese). 马睿, 范椿欣, 罗建洪, 等. 化工进展, 2020, 39(8), 3007. 40 Ma R, Fan C X, Wang Y B, et al. Chemical Engineering & Processing: Process Intensification, 2020, 151, 107916. 41 Cao Y, Li J, Jin Y, et al. Chinese Journal of Chemical Engineering, 2019, 27, 2937. 42 王贵超, 陈颂英, 孙逊, 等. 中国专利, CN110339593A, 2019. 43 Liu X L, Li X T, Ju S H, et al. Precious Metals, 2020, 41(S1), 98(in Chinese). 刘晓玲, 李熙腾, 巨少华, 等. 贵金属, 2020, 41(S1), 98. 44 Kolar E, Catthoor R P R, Kriel F H, et al. Chemical Engineering Science, 2016, 148, 212. 45 Cui K H, Huang K. Separation and Purification Technology, 2021, 277, 119401. 46 Chen Z, Wang W T, Sang F N, et al. Separation and Purifification Technology, 2017, 174, 352. 47 He Y, Pei J N, Srinivasakannan C, et al. Hydrometallurgy, 2018, 179, 175. 48 Sattari-najafabadi M, Esfahany M N. Chemical Engineering & Proces-sing: Process Intensification, 2020, 157, 108156. 49 Yin S H, Chen K H, Srinivasakannan C, et al. Hydrometallurgy, 2018, 175, 266. 50 Zhou A, Li X T, Li X P, et al. Chemical Industry and Engineering Progress, 2019, 38(5), 2093(in Chinese). 周澳, 李熙腾, 李鑫培, 等. 化工进展, 2019, 38(5), 2093. 51 Yamamoto M, Taguchi S, Sato S, et al. Journal of Separation Science, 2015, 38, 1807. 52 Hou H L, Jing Y, Wang Y, et al. Journal of Rare Earths, 2015, 33(10), 1114. 53 Abbasi A, Rahbar-Kelishami A, Ghasemi M J. Journal of Rare Earths, 2018, 36, 1198. 54 Jiang F, Pei J N, Yin S H, et al. Minerals Engineering, 2018, 127, 296. 55 Liu Y, Zhang C, Wu K J, et al. Journal of Chemical Engineering of Chinese Universities, 2017, 31(3), 530(in Chinese). 刘妍, 张宸, 吴可君, 等. 高校化学工程学报, 2017, 31(3), 530. 56 Cheng Y F, Zhang L J, Zhang W, et al. Chemical Industry and Engineering, 2021, 38(2), 55(in Chinese). 程曜峰, 张丽娟, 张炜, 等. 化学工业与工程, 2021, 38(2), 55. 57 Abraham E, Sulochana G N M, Soundarajan B, et al. Industrial & Engineering Chemistry Research, 2017, 56, 10845. 58 Luo Q, Li S W, Guo X Q, et al. Journal of Chemical Engineering of Chinese Universities, 2014, 28(3), 524(in Chinese). 罗强, 李少伟, 郭绪强, 等. 高校化学工程学报, 2014, 28(3), 524. 59 Assmann N, von Rohr P R. Chemical Engineering and Processing, 2011, 50, 822. 60 Xie T L, Liu X G, Xu C, et al. Chemical Engineering and Processing, 2017, 120, 9. 61 Sattari-Najafabadi M, Esfahany M N. Chemical Engineering and Proces-sing, 2017, 117, 9. |
No related articles found! |
|
|
|
|