泡沫分离技术在食品及化工业中的应用现状
详细信息Application status of foam fractionation in food and chemical industry
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摘要: 泡沫分离技术是以气泡为分离介质来浓缩表面活性物质的一种分离技术,具有设备和工艺简单、投资少、能耗低和不产生污染等特点,在食品组分分离的应用研究和工业化生产中起着重要的作用,也越来越受到研究者的重视。本文综述了泡沫分离法的原理及分类,介绍了其在分离细胞、蛋白质和酶类物质的分离、皂苷类物质的提取、水溶液处理等方面的应用进展,进而提出了泡沫分离法目前存在的问题以及发展方向。Abstract: Foam fractionation is a kind of technology using bubble as medium to concentrate surface active substances.Foam fractionation has the characteristics such as simple equipment, low investment, low energy consumption and environmental compatibility, and plays an important role in application of separating food components and industrialization production. Therefore, it attracts more and more attentions. This paper reviewed the principle, classification of foam fractionation; introduces its application progress in the separation of the cell, protein, enzyme, the extraction of herbal saponin, including the treatment of Aqueous Solution. Therefore, some crucial issues about the current problem and development tendency of foam fractionation were suggested.
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[1] Stowers C C, Makarov V, Tanner R D.Effect of air flowrate on the foam fractionation of a mixture of egg white and egg yolk[J].Asia-Pacific Journal of Chemical Engineering, 2009, 2 (4) :180-183.
[2] Charm S E, Lemlich R.Foam Separation of Enzymes and Other Proteins, Adsorptive Bubble Separation Techniques[M].New York:Academic Press, 1972:157-174.
[3] Fenton G, Hossain M M.Concentration of proteins from single component solution using a semibatch foam process[J].Separation Science and Technology, 1998, 33 (16) :1703-1721.
[4] Brown L, Narsimhan G, Wankat PC.Foam fractionation of globular proteins[J].Biotechnology and Bioengineering, 1990, 36:947-959.
[5] Backleh Sohrt M, Ekici P, Leupold G, et al.Efficiency of foam fractionation for the enrichment of nonpolar compounds from aqueous extracts of plant material[J].Journal of Natural Products, 2005, 68 (9) :1386-1389.
[6] BB urghoff.Foam fractionation applications[J].Journal of Biotechnology, 2012 (3) :8.
[7] 郑瑞东, 刘鹰.泡沫分离法在工厂化养殖废水处理中的应用研究[J].渔业现代化, 2005 (2) :33-35. [8] 高洁, 董文宾, 李菲.泡沫分离技术发展现状及趋势[J].食品科技, 2008 (10) :99-101. [9] 董文宾.生物工程分析[M].北京:化学工业出版社, 2006:42. [10] 郑瑞东, 刘鹰.泡沫分离法的研究进展[J].现代渔业信息, 2005, 20 (9) :3-6. [11] 殷昊, 赵艳丽, 李雪良, 等.泡沫分离设备及工艺的研究进展[J].食品工业科技, 2010, 31 (8) :360-363. [12] Saleh Z S, Hossain M M.A study of the separation of proteinsfrom multicomponent mixtures by a semi-batch foamingProcess[J].Chemical Engineering and Processing, 2001, 40:371-378.
[13] Kinoshita T, Ishigaki Y, Yamaguchi K, et al.Noval operational method of continuous foam separation of gold injection of metal and or surfactant solutions into rising foam bed[J].Separation and Purification Technology, 2007, 52 (2) :357-362.
[14] Maruyama H, Suzuki A, Seki H, et al.Enrichment in axial direction of aqueous foam in continuous foam separation[J].Biochem Eng J, 2006, 30 (3) :253-259.
[15] Pinfold, T A.Adsorptive bubble separation methods[J].Separation Science andTechnology, 1970 (5) :379-384.
[16] 金玉, 陈雷, 殷建.泡沫分离技术的现状及研究进展[J].民营科技, 2008, 11:6. [17] Andrew Csordas, Jaw Kai Wang.An integrated photobioreactor and foam fractionation unit for the growth and harvest of chaetoceros spp.In open system[J].Aquacultural Engineering, 2004, 30:15-30.
[18] 周长春.泡沫分离技术研究进展[J].生物技术通讯, 2003, 14 (1) :85-87. [19] 谭相伟, 吴兆亮, 贾永生, 等.泡沫分离技术在蛋白质多元体系分离中的应用[J].化工进展, 2005, 24 (5) :510-513. [20] Y C FU, S CHEN, Y J LAI.Centrifugation and foam fractionation effect on mucilage recovery from Dioscorea (Yam) Tuber[J].Food Engineering and Physical Properties, 2004, 69 (9) :E510-E514.
[21] Thitima Sarachat, OrathaiPornsunthorntawee, Sumaeth Chavadej, et al.Purification and concentration of a rhamnolipid biosurfactant produced by Pseudomonas aeruginosa SP4using foam fractionation[J].Bioresource Technology, 2010, 101 (1) :324-330.
[22] S B Mohan, A Lyddiatt.Protein Separation by Differential Drainage from Foam[J].Biotechnology and Bioengineering, 1994, 44 (10) :1261-1264.
[23] Bjorn holmstr.Foam concentration of streptokinase from crude culture filtrates[J].Biotechnology and Bioengineering, 1968, 10 (4) :551-552.
[24] William D Lambert, Liping Du, Robert D Tanner, et al.The effect of pH on the foam fractionation ofβ-glucosidase and cellulase[J].Bioresource Technology, 2003, 87 (3) :247-253.
[25] 杨向平, 刘元东, 席作家, 等.大豆蛋白废水处理中泡沫分离过程的数学模型[J].中国海洋大学学报, 2008, 38 (1) :111-115. [26] 杨向平, 刘元东, 秦海良, 等.大豆蛋白废水中乳清蛋白的泡沫分离实验[J].化工进展, 2008, 27 (1) :92-97. [27] Tadashi Nakabayashi, Yoichi Takakusagi, Kazuki Iwabata, et al.Foam fractionation of protein:Correlation of protein adsorption onto bubbles with a pH-induced conformational transition[J].Analytical Biochemistry, 2011, 8 (19) :1-7.
[28] 孙瑞娉, 殷昊, 卢珂, 等.两级泡沫分离废水中大豆蛋白的工艺[J].农业工程学报, 2010, 26 (11) :374-377. [29] 韦殿杰, 李瑞, 吴兆亮, 等.泡沫相部分水平泡沫分离塔强化分离牛血清蛋白的工艺研究[J].高校化学工程学报, 2011, 25 (4) :597-601. [30] 杨全文, 吴兆亮, 殷昊, 等.螺旋构件强化排液的泡沫分离塔用于牛血清蛋白分离[J].化工学报, 2011, 62 (4) :1000-1004. [31] Dickinson J E, Laskovski D, Stevenson P, et al.Enhanced foam drainage using parallel inclined channels in a single-stage foam fractionation column[J].Chem Eng Sci, 2010, 65 (8) :2481-2490.
[32] Chang suo Jiang, Zhao liang Wu, et al.Technology of protein separation from whey wastewater by two-stage foam separation[J].Biochemical Engineering Journal, 2011, 55:43-48.
[33] 董红星, 岳国君, 刘文信, 等.卧式加压溶气泡沫分离水溶液中低含量蛋白质[J].过程工程学报, 2010, 10 (3) :493-497. [34] 吴伟杰, 李博生.泡沫分离法提取文冠果果皮皂苷的工艺条件[J].浙江农业科学, 2010, 4:816-820. [35] 修志龙, 张代佳, 贾凌云, 等.泡沫分离法分离人参皂苷[J].过程工程学报, 2001, 1 (3) :289-292. [36] 张长城, 胡远浪, 何毓敏.泡沫分离法分离竹节参皂苷的工艺研究[J].中国医院药学杂志, 2010, 30 (17) :1431-1434. [37] 张瑞, 李娜, 张寒琦, 等.泡沫浮选固相提取分离富集三七提取液中的人参皂苷[J].分析化学研究简报, 2011, 39 (5) :738-742. [38] Jones A D, Robinson C.Solvent extraction and adsorptive bubble separation of metal ions from aqueous solution II Adsorptive bubble separation of nickel (Ⅱ) using carboxylic acids and their salts as collectors[J].Journal of inorganic and NuclearChemistry, 1974, 8 (36) :1871-1875.
[39] Jurkiewicz K.Adsorptive bubble separation of zinc and cadmium cationsin presence of ferric and aluminum hydroxides ferric and aluminum hydroxides[J].Journal of Colloid and Interface Science, 2005, 2 (286) :559-563.
[40] Qu Y-H, Zeng G-M, Huang J-H, et al.Treatment of the wastewater containing Cd2+using micellar enhanced ultrafiltration combined with foam fractionation[J].Environmental Engineering Science, 2009, 26:761-766.
[41] Jian Zhang, Yingjun Jing, Zhaoliang Wu, et al.Removal of trace Cu2+from aqueous solution by foam fractionation[J].Desalination, 2009, 249 (2) :503-506.
[42] 李志洲.连续式泡沫分离法去除废水中Cr3+的研究[J].现代化工, 2010, 30 (5) :38-40. [43] 罗永妙.氯气泡沫分离法处理水合肼生产废水[J].工业用水与废水, 2010, 41 (4) :31-33. [44] 张建会, 杨东生.混凝沉淀—泡沫分离—吸附工艺处理马铃薯淀粉废水的实验研究[J].西北师范大学学报:自然科学版, 2009, 45 (5) :88-91. [45] 宋伟光, 吴兆亮, 卢珂, 等.泡沫分离除去水溶液中微量硫酸铜[J].高校化学工程学报, 2009, 23 (6) :1069-1074. [46] 王烨, 吴兆亮, 吴心蕊, 等.泡沫分离水溶液中硫酸铜和曙红Y色素工艺研究[J].河北工业大学学报, 2011, 40 (2) :49-54. [47] 宋伟光, 吴兆亮, 刘桂敏, 等.泡沫分离除去水溶液中微量金属离子[J].高校化学工程学报, 2008, 22 (5) :900-905.
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