Abstract
As a kind of high-efficiency quality-preserving extraction technology, the subcritical fluid extraction equipment is getting more and more attention in its industrial application. The review summarized the basic concepts, types and development of subcritical fluid extraction technology and equipment. Moreover, the development of subcritical fluid extraction equipment was reviewed from the aspects of laboratorial equipment and industrial equipment. The unique advantages and problems of subcritical fluid extraction technology in the processing of agricultural products were briefly described, and the development trend of subcritical fluid extraction equipment was also forecasted.
Publication Date
11-28-2018
First Page
208
Last Page
211,220
DOI
10.13652/j.issn.1003-5788.2018.11.042
Recommended Citation
Jiachen, SHI; Qifei, WU; Jun, SUN; Zhongwei, CHEN; and Bin, XU
(2018)
"Development status and trend of subcritical fluid extraction equipment for agricultural products,"
Food and Machinery: Vol. 34:
Iss.
11, Article 41.
DOI: 10.13652/j.issn.1003-5788.2018.11.042
Available at:
https://www.ifoodmm.cn/journal/vol34/iss11/41
References
[1] 祁鲲. 亚临界溶剂生物萃取技术的发展及现状[J]. 粮食与食品工业, 2012, 19(5): 5-8.
[2] 祁鲲. 亚临界低温萃取技术在天然产物提取中的应用及前景[C]// 首届中国亚临界生物萃取技术发展论坛论文集. 安阳: 中国国际科技促进会, 国家级安阳高新技术产业开发区管委会, 河南省亚临界萃取设备工程技术研究中心, 2016: 68-74.
[3] LIU Zeng-gen, MEI Li-juan, WANG Qi-lan, et al. Optimization of subcritical fluid extraction of seed oil from Nitraria tangutorum, using response surface methodology[J]. LWT-Food Science and Technology, 2014, 56(1): 168-174.
[4] 宋国辉, 黄纪念, 孙强, 等. 加压液化气亚临界萃取技术在农产品加工中的应用[J]. 农产品加工: 学刊, 2014(8): 62-66.
[5] ROSENTHAL H, TREVITHICK H P. Low boiling hydrocarbons as oil extraction media[J]. Oil and Soap, 1934, 11(7): 133-134.
[6] KOSAKU Yasuda, TETSUO Arai, TOSHIKAZU Tokunaga. Studies on extraction of soybeans by liquid butane I: Adaptability of liquid butane as xtraction solvent and the extraction condition[J]. Journal of Japan Oil Chemists' Society, 1961, 10(7): 390-394.
[7] KOSAKU Yasuda, YOSHIYUKI Kawase, TOSHIKAZU Tokunaga. Studies on extraction of soybeans by liquid butane II: Optimum extraction condition and quality of the products[J]. Journal of Japan Oil Chemists' Society, 1961, 10(8): 456-459.
[8] KOSAKU Yasuda, HISASHI Watanabe, TOSHIKAZU Tokunaga. Studies on extraction of soybeans by liquid butane III: Quality of the extraction products[J]. Journal of Japan Oil Chemists' Society, 1961, 10(9): 527-531.
[9] 祁鲲, 汪学德. 液化石油气浸出油脂的研究[J]. 中国油脂, 1995(2): 16-22.
[10] 朱新亮. 亚临界流体萃取装备及其在中药提取中的应用[C]// 传统医药国际科技大会. 2009: 29-32.
[11] 徐斌, 朱新亮, 董英, 等. 天然产物有效成分的亚临界流体萃取装置, 中国, 201578881U[P]. 2009-09-15.
[12] MACHADO A P D F, PASQUEL Reátegui J L, BARBERO G F, et al. Pressurized liquid extraction of bioactive compounds from blackberry (Rubus fruticosus, L) residues: a comparison with conventional methods[J]. Food Research International, 2015, 77: 675-683.
[13] BIER M C J, MEDEIROS A B P, OLIVEIRA J S D, et al. Liquefied gas extraction: A new method for the recovery of terpenoids from agroindustrial and forest wastes[J]. Journal of Supercritical Fluids, 2016, 110: 97-102.
[14] PLAZA M, TURNER C. Pressurized hot water extraction of bioactives[J]. Trends in Analytical Chemistry, 2015, 71: 39-54.
[15] BENITO-ROMN, ALONSO E, COCERO M J. Pressurized hot water extraction of β-glucans from waxy barley[J]. Journal of Supercritical Fluids, 2013, 73: 120-125.
[16] ZHAO Li-chao, ZHANG Yong, HE Li-ping, et al. Soy sauce residue oil extracted by a novel continuous phase transition extraction under low temperature and its refining process[J]. Journal of Agricultural and Food Chemistry, 2014, 62(14): 3 230-3 235.
[17] 祁鲲. 液化石油气浸出油脂工艺, 中国, 1050739[P]. 1991-04-17.
[18] HAMDAN S, DAOOD H G, TOTH-MARKUS M, et al. Extraction of cardamom oil by supercritical carbon dioxide and sub-critical propane[J]. Journal of Supercritical Fluids, 2008, 44(1): 25-30.
[19] PEDERSSETTI M M, PAL F, DA S E, et al. Extraction of canola seed (Brassica napus) oil using compressed propane and supercritical carbon dioxide[J]. Journal of Food Engineering, 2011, 102(2): 189-196.
[20] 曹庸, 刘汉槎, 戴伟杰, 等. 一种多功能连续相变萃取装置, 中国, 103349849A[P]. 2013-10-16.
[21] 谭荣威, 曹庸, 利嘉城. 桉叶多酚连续相变提取工艺的优化[J]. 食品与机械, 2015, 31(4): 183-186.
[22] XU Bin, HAN Ji-hua, ZHOU Shi-long, et al. Quality characteristics of wheat germ oil obtained by innovative subcritical butane experimental equipment[J]. Journal of Food Process Engineering, 2016, 39(1): 79-87.
[23] 朱新亮, 祁鲲. 亚临界流体萃取实验室成套设备研究现状及其应用[C]// 首届中国亚临界生物萃取技术发展论坛论文集. 安阳: 中国国际科技促进会, 国家级安阳高新技术产业开发区管委会, 河南省亚临界萃取设备工程技术研究中心, 2016: 81-87.
[24] HENRY Rosenthal. Oil treating process: US, 2152664[P]. 1939-04-04.
[25] 张明. 低温压榨菜籽饼油脂亚临界萃取工艺技术研究[D]. 武汉: 中国农业科学院, 2015: 35.
[26] 周世龙. 大豆胚芽油的亚临界丁烷萃取特性研究[D]. 镇江: 江苏大学, 2014: 4-9.
[27] 祁鲲. 萃取罐阀门自动控制系统及设置有该系统的萃取罐, 中国, 205991218U[P]. 2017-03-01.
[28] 祁鲲. 亚临界萃取液连续蒸发系统, 中国, 205925038U[P]. 2017-02-08.
[29] 祁鲲. 亚临界连续萃取脱溶设备, 中国, 206051975U[P]. 2017-03-29.
[30] 端木凡林. 亚临界流体连续萃取装置, 中国, 203315790U[P]. 2013-06-23.