Study on Simplified Algorithm for Simulation of Moisture Buffering Design--The Case Study in Single Zone Housing Unit in Taiwan_

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題名：	Study on Simplified Algorithm for Simulation of Moisture Buffering Design--The Case Study in Single Zone Housing Unit in Taiwan
書刊名：	建築學報
作者：	葉育君／江哲銘／蔡耀賢／羅友伶
作者(外文)：	Yeh, Yu-chun／Chiang, Chi-ming／Tsay, Yaw-shyan／Lo, You-ling
出版日期：	2014
卷期：	87
頁次：	頁121-136
主題關鍵詞：	室內空氣品質；濕氣物性；調濕建材；花旗松；有效滲透深度法；Indoor air quality；Hygroscopic properties；Moisture buffering material；EnergyPlus；Doulas fir；Effective moisture penetration depth
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(1) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:1 共同引用:0 點閱:9

台灣位於亞熱帶氣候區，屬於高濕高熱的氣候型態，容易導致生物性污染，故有效率的室內濕度調節與控制對於室內空氣品質及人類健康相當重要。本研究以花旗松為研究對象，以實驗求得材料熱濕物性，作為數值模擬參數，再利用EnergyPlus軟體中，有效滲透深度（EMPD，Effective Moisture Penetration Depth）簡算法進行空間熱濕環境模擬，比較調濕建材使用面積以及室內通風換氣量與調濕性能之關係，以評估花旗松對於台灣典型住宅寢室空間的調濕性能。根據結果，室內建材花旗松具有良好調濕效果，可緩和室內濕氣變動量，減少相對濕度80%－100%發生率，降低室內生物性污染產生；且結果顯示調濕建材搭配通風換氣，可得到較佳室內調濕效果，達到較好的空氣品質。

以文找文

Taiwan is located in the subtropics and has a climate with high temperature and humidity, which leads to high indoor moisture that causes biological pollutants. A moisture buffering effect is proposed to improve indoor air quality and human health. The hygroscopic character of Douglas fir is investigated as a parameter for numerical simulation. Additionally, the EMPD (Effective Moisture Penetration Depth) method is carried out using the program EnergyPlus to simulate moisture buffering performance with varying ventilation rates and quantities of Douglas fir. The results showed that Douglas fir can moderate the indoor moisture variation to decrease the appearance frequency of high humidity and to improve indoor air quality.

以文找文

期刊論文
1.	Harper, G. J.(1961)。Airborne Micro-organism: Survival test with four viruses。The Journal of Hygiene，59(4)，479-486。
2.	Tsay, Y. S.、Chiang, C. M.(2009)。Study on the applicability of moisture buffering materials in Taiwan。Journal of Architecture，69，35-50。
3.	Andrade, C.、Sarria, J.、Alonso, C.(1999)。Relative humidity in the interior of concrete exposed to natural and artificial weathering。Cement and Concrete Research，29(8)，1249-1259。
4.	Künzel, H. M.、Holm, A.、Zirkelbach, D.、Karagiozis, A. N.(2005)。Simulation of indoor temperature and humidity conditions including hygrotherrmal interactions with building envelope。Solar Energy，78(4)，554-561。
5.	Bomehag, C. G.、Sundell, J.、Bonini, S.、Custovic, A.、Malmberg, P.、SkerfVing, S.、Sigsgaard, T.、Verhoeff, A.(2004)。Dampness in buildings as a risk factor for health effects, EUROEXPO: a multidisciplinary review of the literature (1998-2000) on dampness and mite exposure in buildings and health effects。Indoor Air，14(4)，243-257。

會議論文
1.	Janssens, A.、De Paepe, M.(2005)。Effect of moisture inertia models on the predicted indoor humidity in a room。Brussels, BE：Air Infiltration and Ventilation Centre。287-294。

研究報告
1.	Kerestecioglu, A.、Swami, M.、Dabir, R.、Razzaq, N.、Fairey, P.(1988)。Theoretical and Computational Investigation of Algorithms for Simultaneous Heat and Moisture Transport in Buildings (計畫編號：FSEC-CR-191-88)。FL, USA：Florida Solar Energy Center。
2.	Rode, C.、Reuhkuri, R.、Mortensen, L. H.、Hansen, K. K.、Time, B.、Gustavsan, A.、Ojanen, T.(2005)。Moisture Buffering of Building Materials (計畫編號：Report BYG-DTU R-126)。Lyngby, DK：Department of Civil Engineering, Technical University of Denmark。

學位論文
1.	Adan, O.(1994)。On the Fungal Defacement of Interior Finishes(博士論文)。Building and Planning Technische Universiteit Eindhoven, Eindhoven，The Netherlands。
2.	Tu, S. H.(2007)。Contribution of Carbon Sequestration and Carbon Dioxide Reduction by Wooden Construction Buildings in Taiwan(博士論文)。National Taiwan University，Taipei。

圖書
1.	Health Canada(1987)。Exposure Guidelines for Residential Indoor Air Quality. Report of the Federal-Provincial Advisory Committee on Environmental and Occupational Health。Ottawa, CA：Health Canada。
2.	Lyu, F. Y.、Tsai, K. H.、Lin, C. D.、Chung, T. H.(1990)。The Illustration of Commercial Timber in Taiwan。Taipei：The Council of Agriculture, Executive Yuan。
3.	Meyer, B.(1983)。Indoor Air Quality。MA, USA：Addison-Wesley。

其他
1.	ASTM(2010)。Test Method for Hygroscopic Sorption Isotherm of Building Materials. C1498，PA, USA：American Society of Testing Material。
2.	ASTM(2010)。Test Method for Water Vapor Transmission of Materials(E96/E96M)。，PA, USA：American Society of Testing Material。
3.	Central Weather Bureau of Taiwan(2010)。Statistics of Monthly Mean Relative Humidity (1981-2010)，http://www.cwb.gov.tw， 2011/10/15。
4.	Construction and Planning Agency, Ministry of the Interior(2011)。Wood Construction Design and Construction Standards，http://www.cpami.gov.tw， 2011/10/15。
5.	IEA(1990)。Condensation and Energy: Guidelines and Practice(Annex 14)。，Leuven, Belgium：Laboratory for Building Physics。
6.	ISO(2000)。Hygrothermal Performance of Building Materials and Products. Determination of Hygroscopic Sorption Properties(ISO 12571)。，Geneva, Switzerland：International Organization for Standardization。
7.	ISO(2001)。Hygrothermal Performance of Building Materials and Products. Determination of Water Vapor Transmission Properties(ISO 12572)。，Geneva, Switzerland：International Organization for Standardization。
8.	JIS(1995)。Measuring Method of Water Vapor Permeance of Building Materials(JIS A1324)。，Tokyo：Japanese Standards Association。
9.	JIS(2004)。Measuring Method of Water Vapor Sorption Isotherm of Materials(JIS A1475)。，Tokyo：Japanese Standards Association。
10.	Singapore Standard(2009)。Code of Practice for Indoor Air Quality for Air-Conditioned Building(SS 554)。，Singapore：SPRING Singapore。

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