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研究生:吳承軒
研究生(外文):Cheng-Syuan Wu
論文名稱:PCR成型廠房設計與流場分析
論文名稱(外文):PCR molding plant design and flow field analysis
指導教授:許立傑
指導教授(外文):Li-Chieh Hsu
口試委員:劉旭光蔡欣倫
口試日期:2015-07-08
學位類別:碩士
校院名稱:國立雲林科技大學
系所名稱:機械工程系
學門:工程學門
學類:機械工程學類
論文種類:學術論文
論文出版年:2015
畢業學年度:103
語文別:中文
論文頁數:52
中文關鍵詞:空調箱排列有限元素環境溫度
外文關鍵詞:air-conditioning arrangementa finite elementthe ambient temperature
相關次數:
  • 被引用被引用:1
  • 點閱點閱:110
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
現今工廠的提升產品生產效率與節能日漸重視,為了減少部必要的費用,事先規劃與設計變的更重要,空調規畫數量與排列方式設計相對變的重要。本文研究內容,針對廠房內空調設計,並進行探討且設計一套系統,在能源消耗最小情況下,使空調箱發揮最大功能。
本文以COMSOL MULTIPHYSIS有限元素分析模擬設計,從文獻所示空調箱排列方式,準確找出適當的設計系統,能達到廠房要求環境溫度,以利產品製作,增加產品良率,最後附上產學合作案之工廠設計。

Today the plant to enhance production efficiency and energy-saving becoming more important. In order to reduce the portion of the necessary fee, the advance planning and design becomes more important, the number of air-conditioning regulation painting and design arrangement becomes relatively important, Contents of this paper air conditioning system design for the plant for discuss and design a system.In the case of energy consumption is minimized, maximize function of the air conditioning box
In this paper, finite element analysis simulation COMSOL MULTIPHYSIS design. From the air tank arrangement shown in the literature for accurately identify the proper design system requirements of the ambient temperature can reach the plant in order to facilitate the product production, increase product yield, and finally attach the case of industry-university collaboration plant design.

摘要 i
ABSTRACT ii
誌謝 iii
目錄 iv
表目錄 vi
圖目錄 vii
符號說明 ix
第一章 緒論 1
1.1研究背景與動機 1
1.2 文獻回顧 2
1.3 本文撰寫順序 3
第二章 數值方法 4
2.1COMSOL數值方法 4
2.2 統御方程式 4
2.3 收斂準則 6
第三章 空調箱尺寸設計 7
3.1模擬方法 7
3.1.1模型建構 7
3.1.2初始條件設定 10
3. 2.1.1氣流仰角30度 12
3. 2.1.2氣流仰角40度 15
3. 2.1.3氣流仰角50度 18
3. 2.1.4氣流仰角60度 21
3.2.2氣流仰角小結論 24
3.2.3單台空調箱模擬(架高1.3m) 25
3.3 空調箱設計結論 29
3.4更改空調箱位置分析比較與結果 30
3.4.1氣流仰角30度(更改位置) 30
3.4.2空調箱架高1.3m(更改位置) 32
3.5空調箱更改位置結論 34
第四章 全廠空調箱擺放設計 35
4.1.1 模型建構 35
4.1.2初始條件設定 35
4.2.1 case.1全廠模擬(新設計)24台 36
4.2.2 case.2全廠模擬(新設計與更改相對位置) 24台 38
第五章 結論 40
參考文獻 41





[1]Fakhim, Behnia, Armfield, and Srinarayna, “cooling solutions in an operational data centre A case study,” Applied Thermal Engineering, vol. 34, pp. 2279-2291, 2011.
[2]Chow, T. T, and Lin. Z. Wang, “Effect of building re-entrant shape on performance of air-cooled condensing units,” Energy and Buildings, vol. 32, pp. 143-152, 2000.
[3]M. Bojic, M. Lee, and F. Yik, “Flow and temperatures outside a high-rise residential building due to heat rejection by its air-conditioners,” Energy and Buildings, vol. 33, pp. 737-751, 2001.
[4]電腦機房空調系統(CRAC)節能減碳最佳運轉模式研討報告,科學園區研討
會,2008。
[5]John Haas, “Proxy Proposals for measuring Data Center Productivity contributors,” The Green Gird, 2009.
[6]張銘陽,2009,網路資料中心空調節能設計之模擬分析研究,國立台北科技
大學,碩士論文。
[7]吳建德,電腦機房空調氣流分析與節能潛力評估,國立台北科技大
學,碩士論文,2009。
[8]Roger R, Schmidt, and Magnus K. Herrlin, “Evolution of Data Center Environmental Guidelines,” ASHRAE Transactions, Vol. 111, Part 1, 2004.
[9] Richard Brown, Eric Masanet, Bruce Nordman, Bill Tschudi, Arman Shehabi, John Stanley, Jonathan Koomey, Dale Sartor, and Peter Chan, “Report to Congress on Server and Data Center l Energy Efficiency Washington,” Environmental Protection Agency, 2007.
[10] “Data Processing and Electronic office Areas”, ASHRAE Handbook HVAC Applications, pp. 171-1716, 2007.
[11]Magnus, and K. Herrlin, “Refrigerating and Air-Conditioning Engineers,” ASHRAE Transactions, Vol. 111, Part 2, 2007.
[12]William Thomas, “Moisture transfer in porous materials exposed to combined humidity and temperature gradients,” Virginia Polytechnic Institute, 1997.
[13]P. Ole Fanger, and Toftum, “Extension of the PMV model to non-air conditioned
buildings in warm climates,” Energy and Buildings, Vol. 34, No. 6, 2002. [14]Huang. L, and Han. T, “validation of 3-D Passenger Compaerent Hot Soak and
Cool-Down Analysis for virtual Thermal comfort Engineering,” SAE Technical Paper, 2002
[15]Shiuh Ming Chang, Hsiao Yi Huang, and Bai Jing-Jhih,“Indoor thermal comfort by field synergy principle for air-conditioning”, Journal of Professional Mechanical Engineers, Vol. 1, No. 4, pp. 27-33, 2008.

[16] Shiuh Ming Chang, Jie Hao Chang, and Chih Han Chang, “ Thermal Comfort of
Passenger in the Vehicle by Field Synergy Principle,” Journal of Professional
Mechanical Engineers, Vol. 3, No. 2, pp. 8-13, 2010.
[17] Shiuh Ming Chang, Jie Hao Chang, and Ming Huan Tsai, “The Freezer Optimization of Input Fan Location by Field Synergy Principle,” Journal of Professional Mechanical Engineers, Vol. 3, No. 3, pp. 29-33, 2010.
[18] Shiuh Ming Chang, Jie Hao Chang, and Jiun Hau Huang, “Optimization Cooling Fan Position for CPU by Field Synergy Principle,” Journal of Professional Mechanical Engineers, Vol. 3, No. 3, pp. 1-7, 2010.
[19] Shiuh Ming Chang, Jie Hao Chang, and Ming Sung Tsai, “ The Submarine Air
Condition Optimization by Field Synergy Principle,” Journal of Professional Mechanical Engineers, Vol. 3, No. 4, pp. 44-49, 2010.
[20] Shiuh Ming Chang, and You Jyun Su, ” The Optimization Comfortness of Air Craft by Field Synergy Principle,” Journal of Professional Mechanical Engineers, Vol. 3, No. 4, pp. 7-10, 2010

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