簡易檢索 / 詳目顯示

回結果列表
研究生: 陳智豪
Chen, Chih-Hao
論文名稱: 萃取甘蔗植物醇之研究
Study on the Extraction of Policosanol from Sugarcane
指導教授: 葉茂榮
Yeh, Mou-Yung
學位類別: 碩士
Master
系所名稱: 理學院 - 化學系碩士在職專班
Department of Chemistry (on the job class)
論文出版年: 2004
畢業學年度: 92
語文別: 中文
論文頁數: 86
中文關鍵詞: 濾泥蔗汁蔗蠟甘蔗原素二十八碳醇
外文關鍵詞: Octacosanol, Policosanol, sugarcane wax, sugarcane juice, filter cake
相關次數: 點閱:65下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 甘蔗原素是一種天然的高級脂肪醇類混合物,二十八碳醇是其主要成分,一般存在於蔗蠟,小麥胚芽油等天然產物中。自從發現它對人類的體力的增強有助益,在市場上逐漸發展出新的天然食品。
    台糖公司生產的甘蔗蔗汁主要為製糖的原料,而甘蔗汁經壓榨、 過濾所剩下之甘蔗濾泥,其用途為作成堆肥,由於蔗蠟在土壤中不易分解,常包含其他成份,使植物難以吸收。
    超臨界二氧化碳萃取技術已行之有年,它是一種介於氣體與液體之間的流體,其具有高擴散性、低黏性、無污染、不燃性以及高選擇性等良好溶劑之特性,且可調整溫度或壓力的變化來控制流體的性質,在綠色工業上有其發展的空間。超臨界二氧化碳萃取技術除了可減少溶劑使用量與降低溶劑污染等問題外,亦可製造高附加價值之二十八碳醇。
    本研究分兩部份探討利用超臨界流體技術之萃取方式:首先以固態萃取方式將蔗汁殘餘物與濾泥中之二十八碳醇等高級醇類萃取分離出來,進行產率比較,再以溶劑萃取後的粗製蔗蠟利用超臨界流體之液態萃取方式嘗試萃取出純度較高的高級醇類,並使用索式萃取與溶劑萃取方式進行比較。本實驗中,超臨界流體萃取技術之最佳條件為使用液態萃取方式,溫度為60℃,壓力為4000psi,靜置時間為30min。

    Policosanol is a natural mixture of high molecular weight aliphatic primary alcohols, in which octacosanol is the major component exist- ing in sugarcane wax and wheat germ oil. It was found that octacosa- nol has the biological effect to increase the strength and metabolic ac- tivity of muscles. It has been marketed as a natural health food.
    Sugarcane juice is the raw material of Taiwan Sugar Corporation to produce sugar. Filter cake is the waste of grinding and filtrate pro- cess from sugarcane, which is used to be compost of agriculture. Sug- arcane wax is not easily decomposed in soil and absorbed by plants.
    Supercritical CO2 has been used in extraction for many years, which has not only low viscosity, high diffusion, zero pollution, non flamma- bility but also high selectivity of excellent performance. By changing the temperature and pressure in the Supercritical CO2 extraction, it can provide different extraction property.
    In this study, we discuss Supercritical CO2 extraction by two parts. Firstly, Use sugarcane juice residue and filter cake separated by super-
    critical CO2 solid extraction and compare their extracting yield.
    Secondary, use sugarcane wax which extracted by solvent, and refined by supercritical CO2 liquid extraction then compared with soxhlet extraction and solvent extraction. Finally, we get a best condition is at 60℃, 4000psi with CO2 and 30min of mixing time in supercritical CO2 of liquid extraction. The ultimate goal is to get more high value octacosanol from the sugarcane.

    目錄--------------------------------------------------- I 中文摘要----------------------------------------------- V 英文摘要----------------------------------------------- Ⅵ 第一章 緒論-------------------------------------------- 1 一、前言----------------------------------------------- 1 二、甘蔗簡介------------------------------------------- 2 2.1 甘蔗常識------------------------------------------- 2 2.2 蔗汁----------------------------------------------- 3 2.3 濾泥----------------------------------------------- 3 三、甘蔗原素------------------------------------------- 4 3.1 甘蔗原素的歷史------------------------------------- 4 3.2 甘蔗原素的組成------------------------------------- 5 3.3 甘蔗原素在醫學及生理上的效用----------------------- 6 3.4 甘蔗原素的安全性----------------------------------- 7 3.5 甘蔗原素的臨床功效--------------------------------- 9 四、二十八碳醇之介紹---------------------------------- 11 4.1 二十八碳醇簡介------------------------------------ 11 4.2 二十八碳醇理化性質-------------------------------- 11 4.3 二十八碳醇之存在---------------------------------- 12 4.4 二十八碳醇的生理功能------------------------------ 12 4.5 二十八碳醇的萃取---------------------------------- 16 4.6 二十八碳醇的應用範圍------------------------------ 17 五、超臨界流體之簡介---------------------------------- 17 5.1 超臨界流體的定義---------------------------------- 17 5.2 超臨界流體的發展---------------------------------- 18 5.3 超臨界流體的特性---------------------------------- 20 5.4 超臨界流體萃取技術的應用-------------------------- 25 5.4.1 咖啡與茶之咖啡因的去除-------------------------- 29 5.4.2 油脂萃取的純化---------------------------------- 29 5.4.3 香料及植物精油萃取------------------------------ 30 5.4.4 啤酒花苦味及香味成份萃取------------------------ 30 5.4.5 天然色素萃取------------------------------------ 30 5.4.6 酵素反應之應用---------------------------------- 31 5.4.7 膽固醇去除-------------------------------------- 31 5.4.8 機能性成份萃取---------------------------------- 32 5.4.9 殺菌上的應用------------------------------------ 32 5.4.10 其他方面之應用--------------------------------- 32 5.5 超臨界二氧化碳萃取在分析化學上的應用-------------- 33 5.6 超臨界二氧化碳萃取在化學合成與製程上的應用-------- 33 5.7 超臨界流體在矽半導體工業之應用-------------------- 34 5.8 共溶劑的添加-------------------------------------- 35 5.9 超臨界流體裝置------------------------------------ 36 第二章 實驗內容--------------------------------------- 41 一、實驗儀器與設備------------------------------------ 41 二、實驗原料及試劑------------------------------------ 42 2.1 蔗汁濃縮物與濾泥---------------------------------- 42 2.2 標準品與溶劑-------------------------------------- 42 三、實驗動機------------------------------------------ 43 四、一次一變因法-------------------------------------- 44 五、實驗流程------------------------------------------ 44 六、實驗方法------------------------------------------ 44 6.1 索式萃取------------------------------------------ 46 6.2 溶劑萃取------------------------------------------ 46 6.3 再結晶-------------------------------------------- 46 6.4 超臨界二氧化碳萃取-------------------------------- 48 6.4.1 萃取固態原料之成份------------------------------ 48 6.4.2 萃取液態原料之成份------------------------------ 48 第三章結果與討論-------------------------------------- 51 一、粗蔗臘之比較-------------------------------------- 51 1.1 不同溶劑進行索式萃取之比較------------------------ 51 1.2 溶劑萃取之比較------------------------------------ 51 二、蔗臘之比較---------------------------------------- 52 2.1不同溶劑進行索式萃取-再結晶之比較 ---------------- 52 2.2 不同溶劑萃取-再結晶之比較------------------------- 53 三、超臨界二氧化碳萃取法------------------------------ 54 3.1 萃取固態原料-------------------------------------- 54 3.1.1萃取溫度之影響 ---------------------------------- 54 3.1.2萃取壓力之影響 ---------------------------------- 54 3.1.3萃取時間之影響 ---------------------------------- 54 3.1.4二氧化碳流速之影響 ------------------------------ 56 3.1.5二氧化碳用量之影響 ------------------------------ 56 3.2 萃取液態原料-------------------------------------- 58 3.2.1萃取溫度之影響 ---------------------------------- 58 3.2.2 萃取壓力之影響---------------------------------- 58 3.2.3 添加共溶劑之影響-------------------------------- 59 四、超臨界萃取、索式萃取與溶劑萃取之分析與比較-------- 60 4.1 GC之分析條件 ------------------------------------- 61 4.2 二十八碳醇含量比較-------------------------------- 61 4.3 其他高級醇之含量比較------------------------------ 64 4.4 標準品與不同萃取方式之GC圖譜---------------------- 64 第四章 結論------------------------------------------- 76 參考文獻---------------------------------------------- 77

    1. 王承文等,民68年,糖業手冊,台灣糖業股份有限公司,第五篇,第三章,1907-1927

    2. H.H.Hatt et al,1956,The Chemical Modification of Sugar Cane Wax,Australian J,of Applied Sci,7,3,224-232

    3. 今木喬著,岑卓卿譯,民35年,甘蔗蠟質物之研究,第1報,從濾渣浸取蠟質物,台糖研究所,研究彙報,83-91

    4. 岑卓卿,蔡明朝,民36年,濾滓之利用研究,第1報,濾滓之組成,台糖研究所,研究彙報,38-43

    5. 張中盛,民53年,濕法抽取粗蔗蠟之研究,台糖研究所,研究彙報,135-146

    6. 張中盛,民57年,萃取粗蔗臘所用溶劑之比較研究,台糖研究所,研究彙報,167-179

    7. 經濟部工業局,民92年,資源化工業網,糖業廢棄物產生過程

    8. 台灣糖業股份有限公司南靖廠,民88年,製造流程概況

    9. 楊新玲,民92年,降低膽固醇的新發現–甘蔗原素

    10. Mas R. Policosanol. Drugs of the Future.,2000,25 (6): 569-586.

    11. 天然二十八醇,http://www.xmucf.com/28wc.htm

    12. 吳時敏,2001, 功能性油脂,271-294,

    13. Kahlon,T.S. ,1989,Cereal Foods World,34(10):872~875

    14. 中田正秀等,1989,New Food Industry, 31(9):8~11

    15. 高橋昌一,1992, New Food Industry, 34(2) : 33~38

    16. 食品的開發,1989, 24(8):65~68

    17. 濱谷和弘,1990,New Food Industry, 32(6) : 13~16

    18. 長坂 義秀等,1990,公開特許公報,341~346

    19. 田中 善晴等,1988,公開特許公報,319~323

    20. 中田正秀等,1987,食品工業, 30(5):78~83

    21. 週刊健康產業新聞,1989,(595):22~24

    22. 山崎 長孝等, 1986,公開特許公報,p263~265

    23. Nil Bio Industry, 1993, 10(7):44~45

    24. 陳冠憲,2001,以索式與超臨界二氧化碳萃取番茄紅素及其穩定性之研究, 國立成功大學化學研究所碩士論文.

    25.凌永健,林新發,廖俊雄,陳健忠,1995,超臨界流體萃取和潔淨科技 (上),科儀新知,17卷,2 期,50- 58

    26. 王少芬,魏建謨, 1999,超臨界流体技術研究之發展,化學,57卷二期,131-142

    27. 桂椿雄,1990,超臨界流體之簡介,科儀新知, 11 卷,4 期,44- 48

    28. M. A. McHugh and V. J. Kruknois, 1986, Supercritical Fluid Extraction :Principles and Practice, Butterworths, Stoneham, MA

    29. 林新發,廖俊雄,陳健忠,凌永健,1995,超臨界流體萃取和潔淨科技 (上),科儀新知,27卷,50-56

    30. A. B. Jarzebski and J. J. Malinoowski, 1995, Potentials and prospects for application of supercritical fluid technology in bioprocessing. Process Biochemistry, 30, 343-349

    31. 孫璐西, 廖怡禎,1998, 超臨界流體技術在食品工業中之應用,化工技術,6,148-156

    32. S. B. Hawthorne. , 1990, Anal. Chem., 62, 633A

    33. S. S. H. Rizvi, J. A. Daniels, J. A. Benado and J. A. Zollweg., 1986, Supercritical fluid extraction: operating principles and food application Food Tech. 7, 57

    34. R. P. de Filippi, 1982, CO2 as a solvent:Application to fats, oils and other materials Chemistry and Industry, 19, 391

    35. H. Brogle, 1982, CO2 as a solvent:its properties and applications Chemistry and Industry, 19, 385

    36. 戴國隆,2001,以超臨界二氧化碳分離黃豆油脫臭蒸餾物中各成份之研究,國立成功大學化學研究所碩士論文

    37. 盧建宏, 2001, 以傳統溶劑及超臨界二氧化碳萃取薑辣味成分之研究, 國立成功大學化學研究所碩士論文

    38. E. Stahl, K. W. Quirin and D. Gerard, 1988, Dense gases for extraction and refining , (translated by M. R. F. Ashworth), Springer-Verlag, New York

    39. de Fillippi, R. P., 1982, Chem. And Ind. , 19, p31

    40. 劉昌樹, 1999, 鮭魚眼窩油之超臨界二氧化碳萃取及其氧化安定性之探討, 國立台灣大學食品科技研究所碩士論文

    41. H. Coenen and E. Kriegel ,1984, Applications of supercritical gas extraction processes in the food industry, Ger. Chem. Eng., 7, 335

    42. 桂椿雄,民87年,超臨界流體萃取儀,環境檢驗通訊雜誌,21,5-1

    43. K. Nakamura,1994, Biological applications of supercritical fluid. In Proceedings of the 3rd International Symposium on Supercritical Fluids-Tome 3: Reaction, Material Science

    44. C. Ooi, K. A. Bhaskar, M. S. Yener, D. Q. Tuan and S. S. H. Rizvi, 1996, Continuous supercritical carbon dioxide processing of palm oil, JAOCS, 73, 233

    45. K. Zosel, 1979, Process for deorisation fats and oils, United States patent 4, 156, 688

    46. E. Lack and H. Seidlitz, 1993, Commercial scale decaffeination of coffee and tea using supercritical CO2. In Extraction of Natural Products Using Near-Critical Solvents, Edited by M. B. King and T. R. Bott, Chapman & Hall, London
    47. S., G. Kamat, E. J. Critchley, Beckman and A. Russell,1995, Biocatalytic synthesis of acrylates in organic solvent and supercritical fluids:III. does carbon dioxide covalently modify enzymes, Biotechnology and Bioengineering, 46, 610

    48. M. T. G. Hierro and Santa-Maria, 1992, Supercritical fluid extraction of vegetable and animal fats with CO2 / sub.--Mini Review, Food
    Chemistry, 45, 189.

    49. K. Sakaki, T. Yokochi, O. Suzuki and T. Hakuda, 1990, Supercritical fluid extraction of fungal oil using CO2 / sub, N2O / sub, CHF2 / sub, and SF6 / sub, JAOCS, 67, 533

    50. E. Stahl, E. Schutz, and H. K. Mangold, 1980, Extraction of seed oils with liquid and supercritical carbon dioxide, J. Agric. Food Chem., 28, 1153

    51. F. Temelli, C. S. Chen and R. J. Braddock, 1988, Food Technology, Jan: 145

    52. D. S. Gardner, 1982, Industrial scale hop extraction with liquid CO2 ” Chemistry and Industry , 19, 402

    53. F. Favati, J. W. King, J. P. Friedrich, 1988, Supercritical / Sub CO2 extraction of carotene and lutein from leaf protein concentrates, J.Food Sci., 53, 1532

    54. R. Marsili and D. Callahan, 1993, Comparison of a liquid solvent extraction technique and supercritical fluid extraction for the determination of alpha- and beta- carotene in vegetable, Journal of Chromatographic Science, 31, 422

    55. R. L. Mendes, J. P. Coelho, J. M. Carbral, H. L. Fernandes, J. M. Novais and A. F. Palavra , 1995, Supercritical / sub CO2 extraction of carotenoids and other lipids from Chlorella vulgaris , Food Chemistry, 53, 99

    56. A. J. Jay and D. C. Steytler, 1992, Nearcritical fluid as solvent forβ-Carotene, J. Supercrit. Fluids, 5, 274

    57. 潘日鴻, 廖怡禎, 1996,高壓流體萃取及分離紅辣椒色素及辣味之研究,研究報告第85-1117 號, 食品工業發展研究所

    58. 潘日鴻, 1997, 高壓流體萃取及分離紅辣椒辣味及色素, 食品工業月刊, 2, 17

    59. 安間哲男, 1987, 以超臨界氣體萃取分離及精製天然色素, 食品工業, 30, 45

    60. 金曉珍, 1995, 超臨界流體技術在食品工業應用之研究規劃報告, 科學發展月刊, 23, 545

    61. Z. R. Yu, S. H. Rizvi and J. A. Zollweg, 1992, Enzymatic esterification of fatty acids mixtures from milk fat and anhydrous milk fat with canola oil in supercritical carbon dioxide, Biotechnology Progress, 8, 508

    62. 余哲仁, 1996, 利用超臨界二氧化碳為溶劑以酵素酯化反應製造高品味米酒及高梁酒之研究, 行政院國家科學委員會專題研究計劃成果報告,計劃編號:NSC84-2321-B-021

    63. 余哲仁, 詹國靖, 1997,利用超臨界二氧化碳為溶劑以Candida Cylindracea 脂解脢合成己酸乙酯之研究, 中國農業化學會誌,35, 1

    64. N. A. Bringe, D.R. Clark and D. B. Howard, 1996, Emulsifying properties of low-fat, low cholesterol egg yolk prepared by supercritical/ sub CO2 extraction, Journal of Food Science, 61, 19

    65. J. W. King, J. H. Johnson and J. P. Friedrich, 1989, Extraction of fat tissue from meat products with supercritical carbon dioxide, J.Agric. Food Chem., 3337, 951

    66. Hamatani, K.; Takahashi, M.; Ogasahara, J.; and Suitomo, S. I., 1991, In 2nd International Symposium on Supercritical Fluids. Boston Massachusett. USA, 5. 20

    67. P. Bondioli, C. Mariani, A. Lanzani, A. Mossa and A. Muller, 1992, Lampante oliver oil refining with supercritical carbon dioxide, J.Am.Oil Chem.Soc, 69, 477

    68. M. K. Chun, H. S. Shin and H. Lee, 1994, Supercritical fluid extraction of taxol and Baccatin III from needles of Taxus Cuspidata, Biotechnology Techniques, 8, 547

    69. I. Hiroya, S. Mitsuya, Y. Akiyoshi and O. Yutaka, 1996, Inactivation of enzymes and decomposition of a-helix structure by supercritical carbon dioxide micro-bubble method, J. Agric. Food Chem., 44, 2646

    70. M. V. Palmer and S. S. T. Ting, 1995, Food Chemistry, 52, 345

    71. J. A. Hayatt, 1984, Liquid and supercritical carbon dioxide as an organic solvents, J. Org. Chem., 49, 5097

    72. C. M. Wai and S. J. Wang, 1997, Chromatography A, 785, 369

    73. M. E. P. McNally, C. M. Deardorff, and T. M . Fahmy, 1992, ACS Symp.Ser., 488, 165

    74. J. C. Via, C. L. Braue and L. T. Talor, 1994, Anal. Chem., 66, 603

    75. J. J. Langenfeld and S. B. Hawthorne et al. , 1992, J. of Chromatography, 594, 297

    76. G. Kaupp, Angew. , 1994, Chem. Ind. Ed. Engl., 33, 1452

    77. K. P. Johnston and C. Haynes, 1987, J. AICHE, 33, 2017

    無法下載圖示 校內:2054-08-30公開
    校外:2054-08-30公開
    電子論文尚未授權公開,紙本請查館藏目錄
    QR CODE