以醋酸酯化木薯澱粉混合取代油炸速食麵中馬鈴薯澱粉之探討

Nai-Fu Liang; 梁乃夫

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/60196

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蔣丙煌
dc.contributor.author	Nai-Fu Liang	en
dc.contributor.author	梁乃夫	zh_TW
dc.date.accessioned	2021-06-16T10:13:31Z	-
dc.date.available	2013-08-25
dc.date.copyright	2013-08-25
dc.date.issued	2013
dc.date.submitted	2013-08-20
dc.identifier.citation	王顯倫，文向前，張文。2000。澱粉及變性澱粉對麵條品質影響研究。鄭州糧食學院學報。3:44-46。王善榮，陳正宏，鄭廣新。2004。澱粉對油炸方便麵品質影響的研究。食品科學。25:109-111。李培圩。1994。方便麵生產工藝及基本理論 (一)。食品工業。4:48-51。孫彩玲，田紀春，張永祥。2007。TPA質構分析模式在食品研究中的應用。實驗科學與技術。2:1-4。楚炎沛。2003。物性測試儀在食品品質評價中的應用研究。糧食與飼料工業。 7:40-42。蔡玲吟。2007。酯化澱粉添加對冷凍熟麵條烹煮特性與質地之影響。中興大學食品暨應用生物科技學系所學位論文。錢銀川。2000。麵粉特性與方便麵品質。食品科技。4:52-54. 薛丹，歐陽一非，高海燕，尹京苑。2010。方便麵感官品質特性與麵條質構、色澤指標的關係研究。食品工業科技。31:97-99,103. American Association of Cereal Chemists. 2000. Approved Methods of the AACC, 10th ed. Methods 08-01, 44-16, 46-30, 54-10, 54-21 and 76-21. The Association: St. Paul, MN. Baik, B.K. and Lee. M.R. 2003. Effects of starch amylose content of wheat on textural properties of white salted noodles. Cereal Chemistry 80:304-309. Baik, B.K., Czuchajowska, Z. and Pomeranz, Y. 1994. Role and contribution of starch and protein contents and quality to texture profile analysis of oriental noodles. Cereal Chemistry 71:315-320. Bourne, M.C. 1995. Food texture and viscosity: Concept and measurement. 2nd Edition, Academic Press. New York. Cousidine, D.M. 1982. Foods and food production encyclopedia. NY: John Wiley Inc. p. 142. Crosbie, G.B. 1991. The relationship between starch swelling properties, paste viscosity and boiled noodle quality in wheat flours. Journal of Cereal Science 13:145-150. Crosbie, G.B., Lambe, W.J., Tsutsui, H. and Gilmour, R.F. 1992. Further evaluation of the flour swelling volume test for identifying wheats potentially suitable for Japanese noodles. Journal of Cereal Science 15:271-280. Dexter, J.E., Matsuo, R.R. and MacGregor, A.W. 1985. Relationship of instrumental assessment of spaghetti cooking quality to the type and the amount of material rinsed from cooked spaghetti. Journal of Cereal Science 3:39-53. Epsteint, J., Morrist, C.F. and Hubert, K.C. 2002. Instrumental texture of white salted noodles prepared from recombinant inbred lines of wheat differing in the three granule bound starch synthase (waxy) genes. Journal of Cereal Science 35:51-63. Finney, K.F. and Shogren, M.D. 1972. A ten-gram mixograph for determining and predicting functional properties of wheat flours. Baker's Digest 46:32-42. Fu, B.X. 2008. Asian noodles: History, classification, raw materials, and processing. Food Research International 41:888-902. Hatcher, D.W., Kruger, J.E. and Anderson, M.J. 1999. Influence of water absorption on the processing and quality of oriental noodles. Cereal Chemistry 76:566-572. Hermansson, A.M. and Svegmark, K. 1996. Developments in the understanding of starch functionality. Trends in Food Science and Technology 7:345-353. Hou, G., Kruk, M., Petrusich, J. and Colletto, K. 1997. Relationships between flour properties and Chinese instant fried noodle quality for selected US wheat flours and Chinese commercial noodle flours. Journal of the Chinese Cereals and Oils Association 12:7-13. Hou, G. and Kruk, M. 1998. Asian noodle technology. Technical Bulletin 20:1-10. Hou, G.Q. 2001. Oriental noodles. Advances in Food and Nutrition Research 43:140-193. Kim, S.K. 1996. Instant noodle technology. Cereal Foods World 41:213-214. Konik, C.M., Miskelly, D.M. and Gras, P.W. 1992. Contribution of starch and non-starch parameters to the eating quality of Japanese white salted noodles. Journal of the Science of Food and Agriculture 58:403-406. Konik, C.M., Mikkelsen, L.M., Moss, R. and Gore, P.J. 1994. Relationships between physical starch properties and yellow alkaline noodle quality. Starch 46:292-299. Kubomura, K. 1998. Instant noodles in Japan. Cereal Foods World 43:194-197. Lee, C.H., Gore, P.J., Lee, H.D., Yoo, B.S. and Hong, S.H. 1987. Utilization of Australian wheat for Korean style dried noodle making. Journal of Cereal Science 6:283-297. Marsilli, R. 1993. Texture and Mouth-feel: Making Rheology Real. Contrubutary paper in: Food product design. Weeks Publishing Company Northbrook, IL. Mbougueng, P.D., Tenin, D., Scher, J. and Tchiégang, C. 2012. Influence of acetylation on physicochemical, functional and thermal properties of potato and cassava starches. Journal of Food Engineering 108:320-326. Moss, H.J. 1980. The pasting properties of some wheat starches free from sprout damage. Cereal Research Communications 8:297-302. Nagao, S., Ishibashi, S., Imai, S., Sato, T., Kanabe, Y., Kaneko, Y. and Otsubo, H. 1977. Quality characteristics of soft wheats and their utilization in Japan. III. Effects of crop year and protein content on product quality. Cereal Chemistry 54:300-306. Newport Scientific. 1995. Operation manual for the series 3 Rapid Visco Analyser pp. 25-28. Interpretation, In Newport Scientific (Ed.) Sydney: Newport Scientific Pty. Ltd. Noda, T., Tsuda, S., Mori, M., Takigawa, S., Endo, C.M., Kim, S.J., Hashimoto, N. and Yamauchi, H. 2006. Effect of potato starch properties on instant noodle quality in wheat flour and potato starch blends. Starch/Stärke 58:18-24. Oda, M., Yasuda, Y., Okazaki, S., Yamaguchi, Y. and Yokoyama, Y. 1980. A method of flour quality assessment for Japanese noodles. Cereal Chemistry 57:253-254. Oh, N.H., Seib, C.W., Deyoe, C.W. and Ward, A.B. 1983. Noodles I. Measuring the textural characteristics of cooked noodles. Cereal Chemistry 60:433-438. Olkku, J. and Rha, C. 1978. Gelatinization of starch and wheat flour starch – a review. Food Chemistry 3:293-317. Park, C.S. and Baik, B.K. 2004. Relationship between protein characteristics and instant noodle making quality of wheat flours. Cereal Chemistry 81:159-164. Park, C.S., Hong, B.H. and Baik, B.K. 2003. Protein quality of wheat desirable for making fresh white salted noodles and its influences on processing and texture of noodles. Cereal Chemistry 80:297-303. Sarıçoban, C., Yılmaz, M.T. and Karakaya, M. 2009. Response surface methodology study on the optimisation of effects of fat, wheat bran and salt on chemical, textural and sensory properties of patties. Meat Science 83:610-619. Shuey, W.C. 1982. The Farinograph handbook. American Association of Cereal Chemists. St. Paul, MN. Singh, J., Kaur, L. and McCarthy, O.J. 2007. Factors influencing the physico-chemical, morphological, thermal and rheological properties of some chemically modified starches for food applications—a review. Food Hydrocolloids 21:1-22. Swinkles, J.J.M. 1985. Composition and properties of commercial native starches. Starch/Stärke 37:1-5. Tran, T., Piyachomkwan, K. and Sriroth, K. 2007. Gelatinization and thermal properties of modified cassava starches. Starch/Stärke 59:46-55. Vernaza, M.G., Gularte, M.A. and Chang, Y.K. 2011. Addition of green banana flour to instant noodles: rheological and technological properties. Ciência e Agrotecnologia 35:1157-1165. Wall, J.S. 1979. The role of wheat proteins in determining the baking quality. Pages 275-311 in: Recent advances in the biochemistry of cereals. D.L. Laidman and R.G. Wyn-Jones, eds. Academic Press: London. Wang, S.R., Chen, Z.H. and Zheng, G.X. 2004. Effects of the addition of starches in wheat flour on fried instant noodle quality. Journal of Food Science 25:109-111. Whistler, R.L., Bemiller, J.N. and Paschall, E. 1984. Starch: chemistry and technology, Academic Press, Inco. Orlando, San Deigo, New York, London, Toronto, Montarl, Sydney, Tokyo. World Instant Noodles Association. 2013. Global demand for instant noodles. http://instantnoodles.org/noodles/expanding-market.html Yu, L.J. 2003. Noodle dough rheology and quality of instant fried noodles. Master of Science Thesis. Department of Bioresource Engineering, Macdonald Campus, McGill. University Montreal, Quebec. Yun, S.H., Quail, K. and Moss, R. 1996. Physicochemical properties of Australian wheat flours for white salted noodles. Journal of Cereal Science 23:181-189. Zaidul, I.S.M., Yamauchi, H., Kim, S.J., Hashimoto, N. and Noda, T. 2007. RVA study of mixtures of wheat flour and potato starches with different phosphorus contents. Food Chemistry 102:1105-1111.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/60196	-
dc.description.abstract	本論文主要研究以天然馬鈴薯澱粉 (NPS)、醋酸酯化馬鈴薯澱粉 (APS)、天然木薯澱粉 (NTS) 和醋酸酯化木薯澱粉 (ATS) 取代麵粉對麵糰流變性質和油炸速食麵質地品質之影響，以探討是否能以木薯澱粉混合取代馬鈴薯澱粉，而維持油炸速食麵的質地品質。結果顯示：在麵糰攪拌特性的部分，以四種澱粉取代麵粉皆顯著地降低吸水率、擴展時間、穩定度和斷裂時間，而彈性指數則顯著地增加。在麵糰拉力特性的部分，以四種澱粉取代麵粉皆顯著地降低能量和延展性，但是在抗延展力的部分，以20%APS取代麵粉與控制組之間沒有顯著差異，而其他三組則顯著地降低。在糊化黏度特性的部分，以四種澱粉取代麵粉皆顯著地增加尖峰黏度、恆溫黏度和最終黏度，而糊化溫度則顯著地降低，但是以20%NTS (70.40°C) 取代麵粉仍具有顯著較其他三組 (62.90~65.85°C) 高的糊化溫度。在質地剖面分析的部分，以四種澱粉取代麵粉皆顯著降低硬度、膠著性和咀嚼性，而彈性則顯著地增加。接著以10%NPS或APS加上10%ATS，以及5%NPS或APS加上15%NTS取代麵粉，探討是否能以ATS混合取代馬鈴薯澱粉，而維持油炸速食麵的質地品質。結果顯示：以5%NPS加上15%ATS取代麵粉的油炸速食麵質地品質與單純以20%NPS取代麵粉時最為相似，二組之間的彈性、回復性、膠著性和咀嚼性皆沒有顯著差異，在硬度的部分，二組之間雖然有顯著差異，但是5%NPS加上15%ATS (1666 g) 仍為四種混合取代的組別中與20%NPS (1546 g) 最接近的，感官品評亦顯示此二者之間不具有顯著差異。	zh_TW
dc.description.abstract	The purpose of this thesis was to investigate the effect of the substitution of native potato starch (NPS), acetylated potato starch (APS), native tapioca starch (NTS) and acetylated tapioca starch (ATS) for wheat flour on the rheological properties of dough and the textural quality of instant fried noodles so as to evaluate if potato starch could be substituted by mixing with tapioca starch and still maintain the textural quality of instant fried noodles. The results indicated that, according to the farinogram, the absorption, development time, stability and time to breakdown significantly decreased, but the mixing tolerance index significantly increased as wheat flour was substituted by four kinds of starch. According to the extensogram, the energy and extensibility significantly decreased, but the resistance to extension of wheat flour substituted by 20%APS didn’t significantly differ with the control while the other three groups significantly decreased. The peak viscosity, trough viscosity and final viscosity of the pasting properties significantly increased, but the pasting temperature significantly decreased as wheat flour was substituted by four kinds of starch. However, the pasting temperature of wheat flour substituted by 20%NTS (70.40°C) was still significantly higher than the other three groups (62.90-65.85°C). The hardness, gumminess and chewiness of the textural profile analysis significantly decreased, but the springiness significantly increased as wheat flour was substituted by four kinds of starch. Then, wheat flour was substituted by 10%NPS/APS plus 10%ATS or 5%NPS/APS plus 15%ATS, to evaluate if potato starch could be substituted by mixing with ATS and maintain the textural quality of instant fried noodles. The texture profile analysis showed that the textural quality of instant fried noodles with 20%NPS and 5%NPS plus 15%ATS substitution were mostly similar. There were no significant differences in springiness, resilience, gumminess and chewiness between these two groups. Although there was significant difference in hardness between these two groups, 5%NPS plus 15%ATS (1666 g) was still the closest group of four mixing substitution groups to 20%NPS (1546 g). Organoleptic evaluation also revealed that these two group did not differ significantly.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T10:13:31Z (GMT). No. of bitstreams: 1 ntu-102-R00641024-1.pdf: 1856184 bytes, checksum: d83de1686f00384a23e61988af0461fb (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	口試委員會審定書 # 謝誌 i 中文摘要 ii Abstract iii 目錄 v 圖目錄 viii 表目錄 x 第一章前言 1 第二章文獻回顧 3 第一節速食麵 3 （一）歷史與發展 3 （二）分類 5 （三）製程 6 （四）品質 9 第二節澱粉 12 （一）馬鈴薯澱粉 12 （二）木薯澱粉 13 （三）修飾澱粉 15 （四）醋酸酯化澱粉 17 第三節麵粉流變性質分析 19 （一）麵糰攪拌特性 19 （二）麵糰拉力特性 21 （三）糊化黏度特性 22 第三章實驗架構 23 第四章材料與方法 24 第一節實驗原料 24 第二節儀器設備 24 第三節實驗方法 25 （一）一般成分分析 25 （二）醋酸酯化取代度測定 26 （三）麵粉和澱粉混和 27 （四）麵糰攪拌特性測定 27 （五）麵糰拉力特性測定 28 （六）糊化黏度特性測定 29 （七）油炸速食麵製備 29 （八）油炸速食麵復水 32 （九）麵條質地特性測定 32 （十）感官品評 32 第四節統計分析 33 第五章結果與討論 34 第一節一般成分分析與取代度 34 第二節天然馬鈴薯澱粉對油炸速食麵理化性質之影響 35 （一）麵糰攪拌特性 35 （二）麵糰拉力特性 37 （三）糊化黏度特性 39 （四）麵條質地特性 42 第三節不同澱粉對油炸速食麵理化性質之影響 44 （一）麵糰攪拌特性 44 （二）麵糰拉力特性 48 （三）糊化黏度特性 51 （四）麵條質地特性 55 （五）相關分析 57 第四節醋酸酯化木薯澱粉取代馬鈴薯澱粉對油炸速食麵理化性質之影響 59 （一）麵糰攪拌特性 59 （二）麵糰拉力特性 63 （三）糊化黏度特性 66 （四）麵條質地特性 70 （五）感官品評 73 第六章結論 74 參考文獻 75
dc.language.iso	zh-TW
dc.title	以醋酸酯化木薯澱粉混合取代油炸速食麵中馬鈴薯澱粉之探討	zh_TW
dc.title	Evaluation of Potato Starch Substituted by Mixing with Acetylated Tapioca Starch in Instant Fried Noodles	en
dc.type	Thesis
dc.date.schoolyear	101-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	葉安義,賴喜美,盧訓
dc.subject.keyword	速食麵,馬鈴薯澱粉,木薯澱粉,醋酸酯化澱粉,質地,流變性質,	zh_TW
dc.subject.keyword	instant noodles,potato starch,tapioca starch,acetylated starch,texture,rheological property,	en
dc.relation.page	78
dc.rights.note	有償授權
dc.date.accepted	2013-08-20
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	食品科技研究所	zh_TW
顯示於系所單位：	食品科技研究所

文件中的檔案：

檔案	大小	格式
ntu-102-1.pdf 目前未授權公開取用	1.81 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。