A.中文文獻
1.Richard Koch著/謝綺蓉譯,1998,80/20法則:迎接新世紀,最省力的企業成功與個人幸福法則,大塊文化出版
2.胥直強,1997,「台灣公寓平面基本模式之反省與展望」,台灣建築報導雜誌,第23期,39-45
3.賴榮平、謝宏仁、陳裕益,2003,「都市住宅建築設備永續性能現況研究」,建築學報 第42期,115-1314.內政部營建署編輯委員會,2005,「築技術規則」營建雜誌社
5.公寓大廈管理條例
6.國民住宅社區規劃條例
7.周鼎金,2002 編著,「建築設備--給排水衛生設備篇--熱水設備」,茂榮書局
8.詹肇裕 編譯,1996,「建築設備學概論--熱水設備」,胡氏圖書出版社
9.中華民國建築學會,1991,「建築節約能源設計手冊」,中華民國建築學會編
10.陳裕益,2001,「永續發展理念下都市住宅設備現況調查分析」,成功大學碩士論文11.周鼎金,1999,建築物理,旭營文化事業公司
12.森田泰司、押尾良衛、新藤博行著,利世旭、蔡長豔編譯,1986,「配管實務設計」,全華科技圖書股份有限公司內政部建築研究所,2001,綠建築推動方案
13.李孟杰,鄭政利、沈明德,2003,住宅熱水設備系統改良設計之研究—以瞬間型瓦斯熱水器為例,第一屆創新設計研討會,台北,台灣
14.黃重魁,2002,家用太陽能熱水器用後評估之研究,成功大學碩士論文15.台北市自來水事業處,1999,「台北市用水設備設計、施工、檢驗作業規範」
16.江南震,1999,,台灣科技大學碩士論文17.吳玉印,1971,實驗計畫法,中國生產力中心
18.林晏旬,2005,住宅建築熱水配管傳輸耗能之研究,台灣科技大學碩士論文19.李孟杰,鄭政利,林晏旬,2004,台灣地區住宅建築熱水系統調查與溫度損失之研究,第十六屆建築研究成果發表會
20.顏月珠,1995,統計學,三民書局
21.黃譯興,1999,模糊控制式智慧型瓦斯熱水器恆溫控制系統之研究,成功大學碩士論文22.內政部建築研究所,2001,綠建築推動方案
23.葛蘭富(Grundfos)泵浦,2001,UPA15-90商品型錄,台灣葛蘭富
24.台灣東陶(TOTO)衛浴,2001,綜合商品型錄,台灣東陶
25.內政部營建署,2003,建築節約能源設計規劃與實例,營建雜誌社
26.李孟杰,鄭政利,林晏旬,2005,生活熱水系統耗能量評估之研究,第十七屆建築研究成果發表會
27.李偉立,鄭政利,1997,住宅建築給水設備耗能分析之初步研究,第十屆建築研究成果發表會28.鄭政利,劉安平,李偉立,1998,建築給排水設備節能之研究,第十一屆建築研究成果發表會
29.中華民國建築學會,1987,「給排水衛生設備技術規範」,中華民國建築學會編
30.康國裕、楊建裕、梁鳳強,1986,「太陽能熱水系統發展潛力調查研究」,經濟部七十五年度研究發展專題,經濟部能源委員會
31.鄭政利,李孟杰,林晏旬,2003,住宅建築熱水系統耗能之研究,第十五屆建築研究成果發表會
32.李偉立,1998,台北市集合住宅生活用水耗能模式之研究,台灣科技大學碩士論文
B.英文文獻
1.C.L. Cheng, 2002, Study of the inter-relationship between water use and energy conservation for a building, Energy and Building 34, 261-266.
2.J.P. Meyer, M. Tshimankinda, 1996, Domestic hot water consumption by developing communities in South African traditional house, Energy 21 (12), 1101-1106.
3.J.P. Meyer, M. Tshimankinda, 1998, Domestic hot water consumption in South African townhouse, Energy Conversion Management 39 (7), 679-684.
4.M. Kamata, K. Sakaue, M. Nabeshima, K. Emura, H. Nimiya. , 1997, Estimation of water temperature for design of hot water supply system based on energy conservation. B5; 1-9, CIB-W62 Symposium, Yokohama, Japan.
5.S. Murakawa, D. Nishna, Y. Koshikawa, H. Takata, 2000, An analysis on the loads of hot water consumption in a company dormitory for business single-handed and unmarried persons, CIB-W62 International Symposium, Rio De Janeiro-RJ, Brazil.
6.K.Sakaue, M.Kamata, S.Iwamoto, H.Nimiya, 2000, The prediction method of water temperature In distribution pipes. B4; 1-15, CIB-W62 International Symposium, Rio De Janeiro-RJ, Brazil.
7.M. Mae, N. Noriyoshi, M. Kamata, T. Sawachi, 2004, Survey on residential hot water consumption in Japan, CIB-W62 International Symposium, Paris, France.
8.L. Barta, 2003, Experimental monitoring of hot water supply system, CIB-W62 International Symposium, Ankara, Turkey.
9.S. Murakawa, 2002, Development of the Calculating Method for Cold and Hot Water Consumption based on the Fixture Usage in the Time Series through a Day – A Case Study of Apartment House, CIB-W62 International Symposium, Iasi, Romania.
10.S.Murakawa, H.Takata, 2003, Development of the Calculating Method for the Loads of Cold and Hot Water Consumption in The Apartment House., CIB-W62 International Symposium, Ankara, Turkey
11.H.Takada, 2005, An analysis on the loads of hot water comsumption of the guest rooms in a hotel., CIB-W62 International Symposium, Brussels, Belgian.
12.B. Jaćimovic, B. Živković, S. Genić, P. Zekonja, 1998, Supply water temperature regulation problems in district heating network with both direct and indirect connection. Energy and Building; 28:317-322.
13.P.B.L. Chaurasia, 2000, Solar water heater based on concrete collector, Energy 25, 703-716.
14.Jie Ji, Tin-Tai Chow, Wei He, 2003, Dynamic performance of hybrid photovoltaic / thermal collector wall in Hong Kong, Building and Environment 38, 1327-1334.
15.J. Buzas, I. Farkas, A.Biro, R.Nemeth, 1998, Modelling and simulation of a solar thermal system, Mathematics and Computer in Simulation 48, 33-46.
16.National Plumbing Code, USA
17.H.Takata, S.Murakawa, 2003, The Standard for Evaluation of Energy Saving on Hot Water Supply System in Japan. CIB-W62 International Symposium, Ankara, Turkey
18.M.C. Lee, C.L. Cheng, 2003, Research of hot water supply for residential building in subtropical country, CIB-W62 International Symposium, Ankara, Turkey.
19.M.C. Lee, C.L. Cheng, Y.H.Lin, 2004, Hot Water Plumbing System and Temperature Drop Mechanism in Residential Buildings in Taiwan, CIB-W62 International Symposium, Paris France.
20.K.Sakaue, S.Iwamoto, K.Moriyama, M.Kamata, 2003, Simplified Prediction Methods and Analysis of Water Temperature in Water Supply, Distribution Pipes and Purification Plants. CIB-W62 International Symposium, Ankara, Turkey
21.C.L. Cheng, M.C. Lee, 2005, Research on Hot water Issues in Residential Buildings in subtropical Taiwan, Journal of Asian Architecture and Building Engineering, , Vol 4, No 1, pp259-264.
22.C.L. Cheng, A.P. Liu, 1999, A Study of Energy Savings in Residential Plumbing Systems, CIB-W62 International Symposium, Edinburgh, Scotland.
23.M.C. Lee, C.L. Cheng, Y.H. Lin, 2005, Empirical approach to transmit energy for hot water plumbing system. CIB-W62 International Symposium, Brussels, Belgian.
24.C.L. Cheng, 2000, A study on energy consumption concept in water supply and drainage for green building design, APEC project EWG Jun. 2000, A showcase workshop.
25.C.A. Balaras, K. Droutsa, A.A. Argiriou, D.N. Asimakopoulos, 2000, Potential for energy conservation in apartment building. Energy and Building, 31:143-154.
26.JA. Duffie, WA. Beckman , 1991. Solar engineering of thermal processes, 2nd ed. New York; Wiley
27.Hiroshi Takata, 2002, A Study on the Cold and Hot Water Consumption in the University Cafeterias based on the Time Series Analysis, CIB-W62 International Symposium, Iasi. Romania.
28.Kunio Ito, 1997, Measurement of Dynamic Characteristics of a Gas Fired Residential Hot Water Supply System Combined with a Solar Heating System, CIB-62 International Symposium, Yokohama JAPAN.
29.C.L. Cheng, M.C. Lee, Y.H. Lin, Empirical prediction method of transmission heat loss in hot water plumbing, Energy and Building, 2006.2.19 reception.
C.日文文獻
1.木村興造,お湯をつくるしくみ(熱水產生機制),空気調和.衛生工學月刊70 (7), 497-503,1996。
2.小澤正之,給湯機の最近の動向(熱水器的最新動向),空気調和.衛生工學月刊70 (7),505-510,1996。
3.森田泰司,配管技術の基礎,東京電機大學印行,1980。
4.紀谷文樹,お湯の質と衛生(熱水的水質與衛生),空気調和.衛生工學月刊70(7), 491-496,1996。
5.鎌田元康,お湯の使われ方(熱水的使用方法),空気調和.衛生工學月刊70(7),485-490,1996。
6.日本建築環境省能機構,「建築物的能基準與計算手冊」,改訂3版,1996。
7.鎌田元康,給湯設備のABC--住まいと湯,TOTO出版,1993。
8.空気調和.衛生工學會,住宅のわかるやすい—給湯,オーム社,27-32,1996。
9.金子岳夫,高柳�保,給湯設備の維持管理のポイント(熱水設備維護管理要點),空気調和.衛生工學月刊70(7),511-517,1996。
10.空氣調和.衛生工學會,「日本給排水衛生設備規準.同解說(HASS-2060)」,2000。
11.空気調和.衛生工學會,住宅のわかるやすい—給水,オーム社,1995。
12.鎌田元康,給湯設備最近的技術動向:基礎設計資料83 建築設備篇,1997。
13.石渡博,鎌田元康,集合住宅給湯系統容量相關研究,日本建築學會計畫系論文集第508號,1998。
14.大塚雅之,21世紀的給排水設備技術展望,空気調和.衛生工學月刊75 (1),2000。
15.坂上恭助等,「給排水、衛生設備計畫設計實務知識」,空気調和.衛生工學月刊69 (4),32-33,1995。