Author: |
陳明遠 ming-yuan chen |
---|---|
Thesis Title: |
多樣性活性濾材產品設計開發之研究 Rsearch on the Product Design and Development for Diversity Active Filter |
Advisor: |
彭雲宏
Yeng-Horng Perng |
Committee: |
陳俊男
Chun-Nan Chen 梁瓊如 Chiung-Ju Liang 蘇世豐 Su, Shi Fon 黃仁清 Huang, Ren Chin |
Degree: |
博士 Doctor |
Department: |
設計學院 - 建築系 Department of Architecture |
Thesis Publication Year: | 2016 |
Graduation Academic Year: | 104 |
Language: | 中文 |
Pages: | 25 |
Keywords (in Chinese): | 水族箱 、活性濾材 、優養化 、負離子 、HRT 、永續設計 |
Keywords (in other languages): | Aquarium, Active Filter, Eutrophication, Anion, Hydraulic Retention Time, Sustainable Design |
Reference times: | Clicks: 464 Downloads: 0 |
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台灣水族箱之水質過濾材料良莠不齊,衍生水族養殖愛好者無法有效控制水質及確
保魚類的健康。基於此,本產品研究設計係針對造成水質優養化關鍵進行控制,並進一
步解決與降低魚類病變之生態環境進行有效控制。於進行多樣性(4 in 1)濾材產品研發
過程中,透過濾材之水分子過濾功能及水質改善介質進行實驗分析,並於實驗數據之有
效控制及驗證下,研究發現詳下述四項:
一、 利用濾材具有表面積大、水力停滯時間久(Hydraulic Retention Time;HRT),
以及孔隙過濾之特性,透過研究發現除了可大幅改善水質潔淨及提高過濾速
度之外,亦可進一步降低水質有機汙染及汙濁度。
二、 鈣、鎂、硼、鋅、鋰、矽、鋁、負離子等介質經研究發現,其可有效控制水
質汙染及病菌滋生,進一步可延緩水族箱換水時間並確保魚類健康。
三、 研究產品有助於解決一般市場濾材功能不足的缺點,透過多樣性(4 in 1)活
性濾材具有多功能用途之特點,可提供水族箱優質的養殖環境。
四、 研究濾材除了可進行回收與再利用之外,亦可作為園藝土壤之保濕材料,實
乃兼具環境保護的功能,進而達永續設計產品及綠色環保產品研發的目的,
進一步達綠色永續生活的目標。
In Taiwan, water filter materials using in aquarium are uneven, some good and some bad,
causing aquarist can’t effectively control water quality and can’t ensure fish health. Therefore,
a research and design of this product focused on control the key factor of water eutrophication,
furthermore to resolve and reduce fish disease and effectively control ecosystem. During the
process of research and development the product of diversity active filter (4 in 1), through
filter experiment analysis about water molecules filtering function and water quality
improving medium, and under effectively control and verification of experimental data, four
main research findings that details are as follows:
1. Utilizing filter possess large surface area, long hydraulic retention time, and
characteristic of pore filtering are found that can improve water cleanliness and
filtration velocity, and furthermore to reduce water organic pollution and dreggy.
2. The research is found that medium of calcium, magnesian, boron, zinc, lithium, silicon,
aluminium and anion can control water pollution and germs breeding, and furthermore
to postpone the time to change water of aquarium and ensure fish health.
3. This product research can resolve the defect and insufficiency of function of general
commercial filter. The diversity active filter (4 in 1) is provided with the characteristic
of multi-function that can provide high quality breed environment in aquarium.
4. The research filter is not only could be recycling and reuse, but also could be used in
soil moisture retention in horticultural. It has the function of environmental protection,
sustainable design product and it is provided with the purpose of green environmental
protection research, and furthermore to achieve goals of green sustainable living.
﹝1﹞ Brunner, B., 2005, The Ocean at Home: An Illustrated History of the Aquarium, New York: Princeton Architectural Press.
﹝2﹞ Holler, F. J., Skoog, D. A., West, D. M., 1996, Fundamentals of analytical chemistry,
Philadelphia: Saunders College Pub.
﹝3﹞ Miller, G. E., Libey, G. S., 1985, Evaluation of three biological filters suitable for
aquacultural applications, Journal of the World Aquaculture Society, 16:158-168.
﹝4﹞ Singh,S., Ebeling, J., Wheaton, F.,1999, Water quality trials in four recirculating
aquacultural system configurations, Aquacultural Engineering, 20:75-84.
﹝5﹞ Summerfelt, S. T., Hankins, J. A., Heinen, J. M., Weber, A. L., Morton, J. D.
Evaluation of the Triangel microsieve filter in a water-reuse system, 1994, In: World
Aquaculture 1994 Book of Abstracts, World Aquaculture Society, Baton Rouge, LA.
﹝6﹞ Vandenbusch, M. B., Sell, N. J., 1992, Flyash as a sorbent for the remove of
biological resistant organic matter, Resource Conservation Recovery (6): 95-116.
﹝7﹞ 田源,2012,適用於水族養殖的水溫變化量可控之模糊控制器,國立東華大學電
機工程學系碩士論文。
﹝8﹞ 呂成國,1996,水族館理學:觀賞魚飼養管理,翠柏林企業股份有限公司。
﹝9﹞ 李一忠,2005,觀賞魚消費者行為之研究,國立屏東科技大學水產養殖系碩士論
文。
﹝10﹞吳信陵,2005,寵物水族業之電子商務模式,輔仁大學資訊管理學系碩士論文。
﹝11﹞吳銘浚,2012,以綠能創新設計水產養殖系統研究,義守大學工業管理學系碩士
論文。
﹝12﹞梁家豪,2011,養殖池自動定點水質監控系統之研究,建國科技大學自動化工程
系暨光電系統研究所碩士論文。
﹝13﹞董淑芬,2008,水族消費者利益區隔之研究,國立高雄海洋科技大學漁業生產與
管理研究所碩士論文。
﹝14﹞楊荐智,2009,景觀水族箱水質淨化濾材效能特性之探討,嘉南藥理科技大學環
境工程與科學系曁研究所碩士論文。
﹝15﹞廖尹良,2014,智能生態控制水族箱,國立嘉義大學資訊工程學系研究所碩士論
文。
﹝16﹞蔡閔凱,2011,台灣水族周邊產業概況及市場分析,國立臺灣海洋大學水產養殖
學系碩士論文。
﹝17﹞顏在宏,2003,循環水養殖系統之濾材物性與配置對水處理效率影響研究,立臺
灣大學生物環境系統工程學系暨研究所碩士論文。
﹝18﹞瞿大維,2010,世界觀賞魚產業現況,漁業推廣,290: 24-27。
﹝19﹞簡明德、蔡靖層、王人婷,2004,多品質特性系統應用智慧型實驗設計於小型水
族箱養殖環境最佳化之研究,技術學刊,19(4):349-357。