加工條件影響酸化椰奶飲料品質安定性之研究

Jung-Hsuan Hsieh; 謝榮軒

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28325

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	許明仁
dc.contributor.author	Jung-Hsuan Hsieh	en
dc.contributor.author	謝榮軒	zh_TW
dc.date.accessioned	2021-06-13T00:05:14Z	-
dc.date.available	2008-07-30
dc.date.copyright	2007-07-30
dc.date.issued	2007
dc.date.submitted	2007-07-27
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Fruit and vegetable flvor (Raseberry). USA/ARS, Citrus and subtropical product laboratory. Boyd, J., Parkinson, C., Sherman, P. 1972. Factors affecting emulsion stability and the HLB concept. J. Colloid Interface Sci. 41:359-370. Burkus, Z., Temelli, F. 2000. Stabilization of emulsions and forms using barley β-glucan. Food Res. Int，l. 33:27-33. Cancel, L. 1979. Coconut food products and bases. In coconuts: Production, Processing, Products, 2nd ed. 202-239. Clemente, A., Villacorre, M. 1933. Some colloidal properties of coconut milk. Philippine J. Sci. 3:7-10. Chantrapornchai, W., Clydesdale, F. 1999. Influence of droplet characteristics on the optical properties of colored oil-in-water emulsion. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 155:373-382. Chiewchan N., Phungamngoen C., Siriwattanayothin S. 2006. Effect of homogenizing pressure and sterilizing condition on quality of canned high fat coconut milk. Journal of Food Engineering. 73:38-44. Chen, B. H., Miller, C. A., Garrett, P. R. 2001. Dissolution of nonionic surfactant mixtures. Colloids and Surfaces. 191-202. Deuel, H., Stutz, E. 1958. Pectin substances and pectic enzymes. Adv. Enxymol. 20:341. Das, K. P., Kinsella, J. E. 1989. pH dependent emulsifying properties of β-lactoglobulin. J. Dispersion Sci. Technol. 10:77-102. Das, K. P., Kinsella, J. E. 1990. Stability of food emulsions. Advance in Food Nutrition Research. 34:81-201. Davide, C. L., Peralta, C. N., Sarmago, I. G., Sarmago, L. E. 1990. Yoghurt production form a dairy blend of coconut milk and skim milk powder. Philippine Journal of Coconut Studies. 15:10-14. Dickinson, E., Stainsby, G. 1982. Colloids in foods. London: Applied Science. Fernandez, W. L., Ignacio, E. V., Linga, C. K., Malapitan, A. H. 1970. Bihourly bacterial plate count of gata (coconut milk)stored for 24 hr at 30o，20o and 10o. Philippine Agriculturist, 54:202-209. Genovese, D., Lozano J, E. 2001. The effect of hydrocolloids on the stability and viscosity of cloudy apple juices. Food Hydrocolloid 15(1):1-7. Gonzalez, O. N. 1986. State of the art: coconut utilization for good. Paper presented at the Philippine Coconut Research and Development Foundation Planning Workshop. 3-4. Gwee, C. N. 1988. New technologies open the passage into new usage of coconut milk products. In: Food Science and Technology in Industrial Development. 157-162. Guarte, R. C., Muhlbauer, W. Kellert, M. 1996. Drying characteristics of copra and quality of copra and coconut oil. Postharvest Biology and Technology 9:361-372. Grimwood, B. E. 1975. Coconut palm product. FAO. Rome. http://en.wikipedia.org/wiki/Piña_colada Jasper, G. W. 1970. Coconuts: Production Processing Products. Major Feed and Food Crops in Agirculture and Food Series. 163-187. Jena, S., Das, H. 2006. Modeling of particle size distribution of sonicated coconut milk emulsion: Effect of emulsifiers and sonication time. Food Research International 39:606-611. Hagenmaier, R. 1983. Dried coconut milk and other new foods from wet process. Coconuts Today (Philippines). 1:17-23. Larsson, K., Friberg, S. E. 1990. Food Emusions. New York: Marcel Dekker. Leman, J., Kinsella, J. E. 1989. Surface activity film formation and emulsifying properties of milk proteins. CRC Crit. Rev. Food Sci. Nutr. 25:285-315. Mabesa, R., Rosario, R. R. 1979. Quality control in coconut milk processingⅡ. Microbial contaminants. Philippine Agriculturist. 63:167-175. Onsaard, E., Manee, V., Sukoncheun, S., Julian, M. D. 2006. Comparison of properties of oil-in-water emulsions stabilized by coconut cream proteins with those stabilized by whey protein isolate. 39:78-86. Parker, N., S. 1987 Properties and functions of stabilizing agents in food emusion. CRC Crit. Rev. Food Sci. Nutr. 25:285-315. Rousseau, D. 2000. Fat crystals and emulsion stability. Food Research International. 33:3-14. Seow C, C., Goh, S. L. 1994. A differential scanning calorimetric study of the thermal stability of coconut milk proteins. Proceedings of the 5th ASEAN Food Conference. 99-101. Seow C, C., Gwee N, C. 1997. Coconut milk: chemistry and technology. International Journal of Food Science and Technology. 32:189-201. Shomer, I. 1988. Protein self-encapsulation: a mechanism involved with colloidal flocculation in citrus fruit extracts. J. Sci. Food Agric. 42:55-66. Tanford C. 1980. The hydrophobic Effect, 2nd, Wiley, New York. Teixeira-Neto R, O., Vitali, A. A., Delazari, I., Uboldi-Eiroa, M, N. 1985. Commerical sterlization of coconut milk on an industrial scale. 22:437-446.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28325	-
dc.description.abstract	Pina Colada乃由椰奶、鳳梨、水及砂糖調配而成的飲料，此產品在中南美洲相當盛行，由於椰奶成分中富含油脂，在貯藏過程中極易發生油水分層現象，影響消費者對產品的接受度，本論文將以酸化椰奶飲料進行探討（1）pH值及均質條件對酸化椰奶飲料品質之影響；（2）酸化椰奶飲料在不同溫度貯藏下，對色澤、混濁度、黏稠度、溶液分層指數、酸價、過氧化價之變化；（3）酸化椰奶飲料添加不同膠體，在不同均質條件及糖度下對品質及混濁穩定性之影響；（4）添加不同量之alpha-tocopherol對酸化椰奶飲料中油脂安定性之影響。酸化椰奶飲料的品質經不同均質條件處理及pH值改變而有所變化，將酸化椰奶飲料pH值分別調至3.0、4.0靜置兩小時後，經調酸至pH 3.0極易發生油水分層的現象，將酸化椰奶飲料之pH值調至4.0再以8000rpm均質五分鐘，經貯藏兩小時內，色澤、混濁度、黏稠度、溶液分層指數均能維持較佳的程度。酸化椰奶飲料以不同的均質轉速處理後，以100℃熱處理2分鐘後，分別在37±2℃及25±2℃貯藏一個月後，色澤、混濁度、黏稠度、溶液分層指數於37±2℃貯藏下會明顯較25±2℃下降。不同均質條件處理雖無法明顯改善分層現象發生，但有助於提昇酸化椰奶飲料之色澤、混濁度及黏稠度。 12oBrix、18oBrix酸化椰奶飲料 (pH4.0)分別添加0.04％、0.06％、0.08％三仙膠及0.2％、0.4％、0.6％果膠，經不同均質條件處理，以100℃熱處理2分鐘後，貯藏於25±2℃的過程中，添加0.08％三仙膠於12oBrix、18oBrix酸化椰奶飲料，以18oBrix更能維持較佳的黏稠度、混濁度、溶液分層指數。添加果膠對於酸化椰奶飲料之混濁穩定性而言，並無法有效改善產品的混濁穩定性。添加30ppm之alpha-tocopherol於酸化椰奶飲料中，即可有效延緩產品之酸價及過氧化價在25℃貯藏期間上升。	zh_TW
dc.description.abstract	Pina Colada is a drink which is made of coconut milk, pineapple, water and sugar and this product was very popular in Central and South America. Due to the ingredient of coconut milk containing lipid, the Pina Colada causes the phenomenon of creaming and being rancid in the process of storage and it influences the customers’ acceptance to this product. This essay probes about the acidified coconut drinks：(1) How the pH value and the condition of homogenization affect the quality of acidified coconut drinks. (2) When the acidified coconut drinks is stored in different temperatures, how the hue, turbidity, viscosity, creaming index, acid value and peroxide value change. (3) Because the acidified coconut drinks are added the different hydrocolloid, how the hydrocolloid affects the quality and the cloud stabilization in the different condition of homogenization and soluble solid. (4) How it affects the lipid stability in the acidified coconut drinks when adding alpha-tocopherol with different quantity. The quality of acidified coconut drinks changes because of the different conditions of homogenization and the variety of pH value, when the pH value of it has been adjusted separately into 3.0 and 4.0, and it has to be place for 2 hours. The pH 3.0 being adjusted acid easily causes the phenomenon of creaming. However, if the acidified coconut drinks is adjusted to pH4.0 and homogenized for 5 minutes with 8000rpm, the hue, turbidity, viscosity, creaming index can be maintained in better level. After being handled in different homogenization rotor, the acidified coconut drinks has to under the heat treatment in 100℃ for 2 minutes and be stored separately to a temperature of 37±2℃and 25±2℃ for 1 month. Finally, we will observe that the hue, turbidity, viscosity, creaming index must decrease obviously. Although the different conditions of homogenization handling can’t clearly improve the happening of creaming. It exactly contributes to promote the hue, turbidity, viscosity of acidified coconut milk. The peroxide value and acid value will raise by the increasing of storage time, and it shows that the products oxidize seriously during the storage time. The acidified coconut drinks (pH4.0) of 12oBrix、18oBrix is respectively added the xanthan gum of 0.04％, 0.06％, 0.08％ and the pectin of 0.2％, 0.4％, 0.6％. Through the different the different conditions of homogenization handling, the acidified coconut drinks is under the heat treatment in 100℃ for 2 minutes. And in the process of storing at the temperature of 25±2℃, the acidified coconut drinks of 18oBrix which is added the xanthan gum of 0.08％ can maintain better viscosity, turbidity than 12oBrix. It can not maintain the cloud stabilization when add the pectin to the acidified coconut drinks. The acidified coconut drinks adding the alpha-tocopherol in 30ppm can efficiently delay the acid value and peroxide value of the product which is stored at the temperature of 25℃ to raise.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T00:05:14Z (GMT). No. of bitstreams: 1 ntu-96-R94628205-1.pdf: 858250 bytes, checksum: 37b1279c5274ecbcb36fa823818fd8e9 (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	中文摘要………………………………………………………………..Ⅰ 英文摘要………………………………………………………………..Ⅲ 目錄……………………………………………………………………..Ⅴ 圖目錄…………………………………………………………………..Ⅸ 表目錄……………………………………………………………… ..XⅢ 壹、前言…………………………………………………………………..1 貳、前人研究…………………………………………………………….7 一、乳化安定性之基本理論………………………………………….7 (一)乳化機制……………………………………………………….7 (二)乳化劑（Emulsifiers）及安定劑（Stabilizers）對食品之影響..8 二、膠體（hydrocolloid）之性質及應用……………………………13 三、椰奶之乳化機制及相關研究……………………………………17 (一) 椰奶之簡介………………………………………………….17 (二) 椰奶的加工及保存………………………………………….17 四、Pina Colada之介紹………………………………………………23 參、材料與方法…………………………………………………………25 一、實驗原料…………………………………………………………25 二、試藥………………………………………………………………25 三、儀器設備…………………………………………………………25 四、實驗方法…………………………………………………………26 （一） pH值調整及不同均質條件對酸化椰奶飲料安定性之影響.26 （二）酸化椰奶飲料在不同溫度貯藏下對其品質變化之影響……26 （三）添加不同膠體對酸化椰奶飲料混濁穩定性之影響…………27 （四）添加不同量之alpha-tocopherol對酸化椰奶飲料油脂安定性之影響……………………………………………………………...28 五、分析方法…………………………………………………………28 肆、結果與討論…………………………………………………………32 一、pH值調整及不同均質條件對酸化椰奶飲料品質之影響…….32 1. 色澤之變化…………………………………………………….32 2. 黏稠度之變化………………………………………………….33 3. 混濁度及溶液分層指數之變化……………………………….34 二、酸化椰奶飲料在不同溫度貯藏下對其品質變化之影響………35 1. 色澤之變化…………………………………………………….35 2. 黏稠度之變化………………………………………………….37 3. 混濁度及溶液分層指數之變化……...………………………..37 4. 可溶性固形物含量變化……………………………………….38 5. 酸價之變化…………………………………………………….39 6. 過氧化價之變化……………………………………………….39 三、添加不同膠體對酸化椰奶飲料混濁穩定性之影響……………54 (一) 不同三仙膠添加量對酸化椰奶飲料混濁穩度性之影響…...54 (1) 添加0.04％、0.06％、0.08％三仙膠於12oBrix酸化椰奶飲料.54 1. 黏稠度之變化………………………………………………...54 2. 混濁度之變化………………………………………………...54 3. 溶液分層指數之變化………………………………………...55 (2)添加0.04％、0.06％、0.08％三仙膠於18oBrix酸化椰奶飲料.56 1. 黏稠度之變化………………………………………………...56 2. 混濁度之變化………………………………………………...57 3. 溶液分層指數之變化………………………………………...57 (二) 不同果膠添加量對酸化椰奶飲料混濁穩度性之影響….....67 (1) 添加0.2％、0.4％、0.6％果膠於12oBrix酸化椰奶飲料….67 1. 黏稠度之變化………………………………………………...67 2. 混濁度之變化………………………………………………...67 3. 溶液分層指數之變化…………………………….…………..67 (2) 添加0.2％、0.4％、0.6％果膠於18oBrix酸化椰奶飲料……...68 1. 黏稠度之變化………………………………………………...68 2. 混濁度之變化………………………………………………...68 3. 溶液分層指數之變化………………………………………...69 四、添加不同alpha-tocopherol含量對酸化椰奶飲料油脂安定性之影響..78 1. 不同alpha-tocopherol之添加量對18oBrix酸化椰奶飲料酸價之影響……………………………………………………………..78 2. 不同alpha-tocopherol之添加量對18oBrix酸化椰奶飲料過氧化價之影響………………………………………………………..79 伍、結論…………………………………………………………………82 陸、參考與文獻…………………………………………………………83
dc.language.iso	zh-TW
dc.title	加工條件影響酸化椰奶飲料品質安定性之研究	zh_TW
dc.title	Effect of Processing Parameters on the Quality Stability of Acidified Coconut Drinks	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	石正中,戴三堡
dc.subject.keyword	椰奶,均質,分層,膠體,	zh_TW
dc.subject.keyword	Coconut milk,Homogenization,Creaming,Hydrocolloid,	en
dc.relation.page	87
dc.rights.note	有償授權
dc.date.accepted	2007-07-30
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	園藝學研究所	zh_TW
顯示於系所單位：	園藝暨景觀學系

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