簡易檢索 / 詳目顯示

研究生: 林建宏
Lin, Chien Hung
論文名稱: 玻璃咖啡濾杯實用性之研究
The practicality study of glass coffee dripper
指導教授: 陳學志
Chen, Hsueh-Chih
學位類別: 碩士
Master
系所名稱: 創造力發展碩士在職專班
Continuing Education Master's Program of Creativity Development
論文出版年: 2019
畢業學年度: 107
語文別: 中文
論文頁數: 55
中文關鍵詞: 手沖玻璃咖啡濾杯玻璃粉末鑄造技法萃取時間咖啡粉末咖啡風味
英文關鍵詞: Glass Coffee Dripper, Glass Powder Casting Technique, Extraction Time, Coffee Powder, Coffee flavor
DOI URL: http://doi.org/10.6345/NTNU201900782
論文種類: 學術論文
相關次數: 點閱:191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

本研究旨在研究以玻璃作為手沖咖啡免濾紙濾杯實用性之研究,過去傳統使用之濾杯多以使用濾紙為主,非濾紙類也只有金屬濾網與法蘭式絨布,以玻璃為咖啡濾器為首見。
本研究主要目的係在透過實驗設計,檢驗以玻璃做為手沖咖啡濾杯的實用性,包含兩個階段:先行研究與正式研究。先行研究試做四個玻璃咖啡濾杯,並檢視各個玻璃咖啡濾杯的萃取時間是否跟其他濾材是相容的,根據先行研究結果,正式研究採用萃取時間最接近濾紙的玻璃咖啡濾杯為實驗器材,並結合不同咖啡粉末粗細,舉辦八場咖啡試飲會,每場8人,採實驗法,以相依樣本重複量數二因子變異數分析,比較兩種濾器(濾紙、濾杯)與兩種咖啡粉末(粗、細),在咖啡風味的五項評分向度(香、酸、苦、醇厚、均衡)上之差異,統計的顯著水準訂為 α=.05本研究結果如下:
一、玻璃濾杯在香氣、醇厚與均衡上與濾紙有顯著差異(p<.05),玻璃濾杯在香氣、醇厚與均衡三個衡量指標上都比濾紙來得高。
二、粗咖啡粉末在酸度上與細咖啡粉末在酸度上有顯著差異(p<.05),粗咖啡粉末酸度比細咖啡粉末高。
三、細咖啡粉末與粗咖啡粉末在香氣與苦味上有顯著差異(p<.05),細咖啡粉末香氣與苦味比粗咖啡粉末高。
四、濾器(玻璃濾杯、濾紙)與咖啡粉末(粗、細)在咖啡風味上(香氣、酸度、苦味、醇厚、均衡)無交互作用(p>.05) 。
本研究經由玻璃咖啡濾杯萃取時間可調控的確認以及64位研究參與者的盲測實驗,濾杯的喜愛度高於濾紙,證實了玻璃咖啡濾杯的實用性。

This study aims to study the practicality of glass as a paper-free coffee dripper , in the past, the traditional use of filter use paper filtration、metal filtration and cloth filtration.
The study is to test the practicality of using glass as a hand-drip brewing coffee dripper through experimental design, including two stages: pilot research and formal research. First stage tries to make four glass coffee drippers, and to examine whether the extraction time of each glass coffee dripper is compatible with other filtration materials, according to the results of the pilot research, the formal research using the glass coffee dripper whose extraction time closest to the paper filter as experimental material, combined with different thickness of coffee powder , held eight coffee trial sessions, The differences of coffee flavor (Aroma、Acidity、Bitter、Body、Balance) between two filters(paper、glass) and coffee powder(coarse、fine) were analyzed by repeated measure two-way ANOVA. Significant level was set at α=.05.The results of this study are summarized as follows:
1. The result of different filters showed that the glass coffee dripper was significantly higher in aroma、body and balance of coffee flavor than paper filter(p<.05).
2. The result of different coffee powder showed that the coarse coffee powder was significantly higher in acidity than fine coffee powder(p<.05).
3. The result of different coffee powder showed that the fine coffee powder was significantly higher in aroma/bitter than coarse coffee powder(p<0.5).
4. The filter type (glass filter、paper filter) were no interaction with coffee powder ( coarse、fine) on coffee flavor (Aroma、Acidity、Bitter、Body、Balance).
The study was confirmed by the controllable extraction time of glass coffee dripper and the preference of glass coffee dripper over paper filter by blind testing experiments of 64 participants, which confirmed the practicality of glass coffee dripper.

目錄 致謝 I 中文摘要 II ABSTRACT III 目錄 V 表目錄 VI 圖目錄 VII 第一章 緒論 1 第二章 文獻探討 9 第三章 研究方法 18 第四章 研究結果與討論 28 第五章 結論與建議 46 參考文獻 50 附錄 54

一、中文文獻
吳宇喬(2017)。廢棄玻璃熔合之實驗研究(未出版之碩士論文)。國立臺灣藝術大學,新北市。
林珮萱(2016)。黑金浪潮3.0。遠見雜誌,360(6),209-212。
洪榮志、蔡志豪(2011)。從行動者網絡理論看文創商品的展演:以安平劍獅的在地轉譯為例。創業管理研究,6(4),105-122。
唐為成(2017)。濾紙類手沖咖啡製作的影響要素探究。產業與科技論壇,16(5),64-65。
孫兆緯(2015)。慢活的手沖咖啡濾杯設計(未出版之碩士論文)。實踐大學,台北市。
張天賜(2015)。咖啡特有成分的提取方法與推廣之商業模式(未出版之碩士論文)。嘉南藥理大學,臺南市。
張麗珍(2018)。碎變焠變玻璃粉末呈色與透光性之研究(未出版之碩士論文)。國立清華大學,新竹市。
黃虎林(2018)。家就是咖啡館。台北市:四塊玉文創有限公司。
黃寶賢(校審)(2007)。玻特琉璃燒成技法。(原作者:由水常雄)。台北縣板橋市:圓就是藝術創策出版。
劉世權、許淑惠、袁怡松、楊曉晶(1995)。玻璃粉末的燒結。玻璃與搪瓷,23(5),34-38。
蕭銘芚(2006)。玻璃工藝。新竹:新竹市文化局。
醜小鴨咖啡師訓練中心(2015)。手沖咖啡大全。台北市:台灣東販。

二、英文文獻
Antonio Derossi, IIde Ricci, Rossella Caporizzi, Anna Fiore,&Carla Severini(2018).How grinding level and brewing method(Espresso,American,Turkish) could affect the antioxidant activity and bioactive compounds in a coffee cup. Journal of the science of food and agriculture,98(8),3198-3207
Bicho, N. C., Leitão, A. E., Ramalho, J. C., de Alvarenga, N. B., & Lidon, F. C. (2013). Impact of roasting time on the sensory profile of Arabica and Robusta coffee.J.Ecology of Food and Nutrition, 52(2), 163-177.
Carla Severini, IIde Ricci, Mauro Marone, Antonio Derossi & Teresa De Pilli(2015).Changes in aromatic profile of espresso coffee as a function of grinding grade and extraction time: a study by electronic nose system.J.Agric.Food Chem,63(8),2321-2327.
Carvalho, J. M., Paiva, E. L., & Vieira, L. M. (2016). Quality attributes of a high specification product: evidences from the speciality coffee business. British Food Journal,118(1),132-149.
Clark, T. J., & Reed, J. S.(1986). Kinetic Processes Involved in the Sintering and Crystallization of Glass Powders. Journal of the American Ceramic Society, 69(11), 837-846.
Cohen, P. (1992). A power primer. Psychological Bulletin, 112, 155–159.
Cornelis, M. C. & El-Sohemy, A. (2007). Coffee, caffeine, and coronary heart disease. Current opinion in lipidology, 18(1), 13-19.
Czerny, M., Mayer, F. & Grosch, W. (1999). Sensory study on the character impact odorants of roasted Arabica coffee. J. Agric. Food Chem., 47, 695–699.
Dhar, R., & Wertenbroch, K. (2000). Consumer choice between hedonic and utilitarian goods. Journal of marketing research, 37(1), 60-71.
Gall, M. D., Gall, J. P., & Borg, W. R. (2007). Educational research: An introduction (8th ed.). Boston, MA: Pearson Allyn & Bacon.
Holbrook, M. B., & Hirschman, E. C. (1982). The experiential aspects of consumption: Consumer fantasies, feelings, and fun. Journal of Consumer Research, 9(2),132-140.
Ivon Flament(2002)。Coffee flavor chemistry。ENGLAND: JOHN WILEY & SONS,P37.
Justyna Godos, Francesca Romana Pluchinotta, Stefano Marventano, Silvio Buscemi & Giovanni Li Volti.(2014). Coffee components and cardiovascular risk: beneficial and
detrimental effects. International Journal of Food Sciences and Nutrition, 65(8), 925-936.
Mery Yovana Rendóna, Maria Brígida dos Santos Scholzb& Neura Bragagnoloa(2017). Is cafestol retained on the paper filter in the preparation of filter coffee?. Food Research International, 100, 798-803.
Moroney, K. M., Lee, W. T., Suijver, F., & Marra, J. (2015). Modelling of coffee extraction during brewing using multiscale methods: an experimentally validated model. Chemical Engineering Science, 137, 216-234.
Nunnally,J.C.(1978).Psychometric Theory.New Yoirk,NY:McGraw-Hill Companies.
Silva, R.V., de Brito, J., Lye, C.Q., & Dhir, R. K. (2017). The role of glass waste in the production of ceramic-based products and other applications: a review. Journal of Cleaner Production, 167, 346-364.
Sulhadi, Susanto, Priyanto, A., Fuadah, A., & Mahardika. P. A. (2017). Performance of porous composite from waste glass on Salt Purification Process. Procedia Engineering, 170, 41-46.
Sunarharum, Wenny B., Williams, D. J. & Smyth, H. E. (2013). Complexity of coffee flavor: A compositional and sensory perspective. Food Research International, 62, 315-325.
Yeong-Seon Kim & Sang-Houck Lee.(2013). Coffee extraction temperature, extraction time and drinking temperature on the difference in coffee taste and preference study. The Journal of Digital Policy & Management, 11(10), 711-718
Yovana, M., Brígida, M., & Bragagnolo, N. (2018). Physical characteristics of the paper filter and low cafestol content filter coffee brews. Food Res. Int., 108, 280-285.

無法下載圖示 本全文未授權公開
QR CODE