Page 160 - 《精细化工》2022年第12期

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·2526· 精细化工 FINE CHEMICALS 第 39 卷

3 结论 et al. Comparative study on extraction of volatile oil from artemisia
argyifolium by steam distillation and water extraction coupling
rectification[J]. Academic Journal of Shanghai University of
采用过热水蒸气提取杉木精油，发现水蒸气蒸
Traditional Chinese Medicine (上海中医药大学学报), 2022, 36(1):
馏法和过热水蒸气蒸馏法得到的杉木精油在得率、 27-32.
气味和组成成分等方面存在差异。过热水蒸气蒸馏 [9] NING N (宁娜), HAN J J (韩建军), YANG G A (杨广安), et al.
Research progress on extraction technology of polysaccharides from
法比水蒸气蒸馏法得到的精油得率更高，蒸气温度 ganoderma lucidum[J]. Shandong Chemical Industry (山东化工),
为 190 ℃下时，精油得率最高，为 4.89%，约是常 2020, 49(20): 63-66.
压水蒸气蒸馏（SD）法的 3.2 倍。随着过热水蒸气 [10] WANG X F (王雪芙), CHEN H T (陈洪涛), BAO Z H (包志红),
et al. Research progress in supercritical carbon dioxide fluid
温度的升高，蒸馏得到的杉木精油结晶量减少，精 extraction of active ingredients from botanicals[J]. Journal of
油颜色加深，木香、树脂香减少，焦甜味、酸味增 Shenyang Pharmaceutical University (沈阳中医药大学学报), 2022,
39(2): 227-232.
加。精油组成成分中柏木醇相对含量减少，柏木烯
[11] LOPRESTO C G, MELUSO A, SANZO G D, et al.
相对含量增加，当温度达到 280 ℃时，柏木烯相对 Lemonenerecovery from waste lemon peels with supercritical
含量为 42.06%，柏木醇相对含量为 25.41%。过热 extraction[J]. Technology and Innovation, 2018: 1147-1149.
[12] MENG B B (孟斌斌), ZHU K (朱凯). Destructive distillation of
水蒸气蒸馏法大大提高了精油的得率，研究得出了 Chinese fir chips and components of its products[J]. Chemistry and
不同过热水蒸气温度变化与精油化学组成及香气间 Industry of Forest Products (林产化学与工业), 2018, 38(6): 88-94.
[13] SAMEJO M Q, MEMON S, BHANGER M I, et al. Comparison of
的构效关系，可满足对杉木精油产品的不同需求。
chemical composition of Aerva javanica seed essential oils obtained
此方法有很好的工业化应用前景，对其他芳香精油 by different extraction methods[J]. Pakistan Journal of
提取也具有借鉴及示范作用。 Pharmaceutical Sciences, 2013, 26(4): 757-760.
[14] WANG Q (王侨), WAN F X (万福绪), MAO P (毛萍), et al.
参考文献： Composition of essential oil form cupressuslusitanice and its
screened chemical characteristics[J]. Journal of Forestry Engineering
[1] WEI D Y, LIU S J. Inhibition of the growth of alexandriumtamarense (林业工程学报), 2020, 5(3): 96-100.
by algicidal substances in Chinese fir (Cunninghamia lanceolata)[J]. [15] LIANG Z Y (梁忠云), LI G Z (李桂珍), CHEN H Y (陈海燕), et al.
Bulletin of Environmental Contamination and Toxicology, 2009, 83: Study on the chemical constituents of leaves oil of Cinnamomum
537-541. camphora (L) Sieb after vacuum suction filtration[J]. Flavour
[2] ZENG Z K, ZHANG S, WANG H L, et al. Essential oil and aromatic Fragrance Cosmetics (香料香精化妆品), 2016, (1): 1-4.
plants as feed additives in non-ruminant nutrition: A review[J]. [16] CHEN H C (陈华成). Study on the synthesis of epoxy cedar[D].
Journal of Animal Science and Biotechnology, 2015, 7(6): 2-10. Nanjing: Nanjing Forestry University (南京林业大学), 2006.
[3] ZHAO C (赵琛), DING J (丁健), LI Y L (李艳玲). Biological [17] ZHANG Y (张岩), QU F Z (曲凡志), ZHAO Y Q (赵余庆).
activity of plant essential oils and their application in animal Research progress on pharmacological effects of cedrol[J]. Journal of
lmmunity[J]. Journal of Animal Nutrition (动物营养学杂志), 2020, Shenyang Pharmaceutical University (沈阳药科大学学报), 2014,
32(9): 4070-4077. 31(7): 584-588.
[4] LIAN H (连欢), WEI W W (魏雯雯), WANG D (王达), et al. [18] CHANG K F, HUANG X F, CHANG J T. et al. Cedrol, a
Research progress of controlled release polysaccharide-plant sesquiterpene alcohol, enhances the anticancer efficacy of
essential oil antibacterial packaging materials[J]. Food and temozolomide in attenuating drug resistance via regulation of the
Fermentation Industries (食品与发酵工业), 2022, (5): 1-6. DNA damage response and MGMT expression[J]. Journal of Natural
[5] LI M T (李孟滕), SONG Y J (宋熠杰), ZHUANG W D (庄雯迪), Products, 2020, 83: 3021-3029.
et al. Studies on chemical constituents and antibacterial and [19] GAO W L (高炜琳), ZHU K (朱凯). Synthesis of epoxycedarane
antioxidant activities of essential oils from cunhamialancea[J]. catalyzed by quaternary ammonium peroxyphosphotungstate[J].
Contemporary Animal Husbandry (当代畜牧), 2020, (12): 28-32. China Surfactant Detergent and Cosmetics (日用化学工业), 2019,
[6] KREIDEL M K, JHRIAVE M. Introduction to essential oils and 49(2): 108-112.
essential oil processing[J]. Integrative Dermatology, 2021, 1(20): [20] CARPENTER D, TYLER L W, CZERNIK S, et al. Biomass
99-122. feedstocks for renewable fuel production: A review of the impacts of
[7] YAO L. Efficacy and safety of essential oils[J]. China Detergent and feedstock and pretreatment on the yield and product distribution
Cosmetics, 2017, 2(4): 19-25. offastpyrolysis bio-oils and vapors[J]. Green Chemistry, 2014, 16:
[8] SUN W Q (孙吴倩), ZHANG X F (张秀芳), XIN X D (忻晓东),
384-406.

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