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博碩士論文 etd-0822108-110222 詳細資訊
Title page for etd-0822108-110222
論文名稱
Title
太陽能驅動之吸收式空調系統在台灣地區氣候下之模擬研究
Simulation study for an absorption solar cooling system operated under Taiwan climate
系所名稱
Department
畢業學年期
Year, semester
語文別
Language
學位類別
Degree
頁數
Number of pages
66
研究生
Author
指導教授
Advisor
召集委員
Convenor
口試委員
Advisory Committee
口試日期
Date of Exam
2008-07-21
繳交日期
Date of Submission
2008-08-22
關鍵字
Keywords
太陽能負荷比、吸收式空調系統、太陽能空調
absorption solar cooling system, Solar energy, solar fraction
統計
Statistics
本論文已被瀏覽 5674 次,被下載 24
The thesis/dissertation has been browsed 5674 times, has been downloaded 24 times.
中文摘要
本研究以太陽能作為吸收式空調系統的驅動能源,同時利用台灣各地區之氣象資料,輸入TRNSYS電腦模擬程式進行夏季運轉,來評估台灣各地區氣候條件下之太陽能吸收式空調系統所能夠提供的夏季空調負荷百分率,即太陽能負荷比值。
本研究得出台灣各代表地區在不同集熱器面積以及儲存槽容量下所能達到的每月太陽能負荷比 (f) 和季太陽能負荷比(F),可提供台灣地區研發吸收式空調系統最佳化設計之參考。
Abstract
In this thesis, solar energy is utilized as the driving energy for an absorption cooling system, and a TRNSYS computer code is employed to simulate the operation of the system under Taiwan climate. Climate data in TMY2 form for several major cities of Taiwan are input to the simulation program. Also system operating parameters of solar collector area and the size of the system storage are varied to study there effects on the system performance.
This research provides computer simulation data for the monthly solar fraction (f) as well as the seasonal solar fraction (F) for the absorption solar cooling system operated under the climate of the major cities in Taiwan. The data can provide the design needs.
目次 Table of Contents
目錄 I
圖目錄 III
摘要 V
Abstract VI
符號說明 VII
第一章 緒論 1
1-1 研究背景及目的 1
1-2 文獻回顧 5
1-3 研究方法與步驟 10
第二章 系統元件之理論分析與數學模式 12
2-1 收集器(collector) 12
2-2 控制器(controller) 15
2-3 泵(pump) 17
2-4 儲存槽(storage tank) 18
2-5 吸收式冷凍系統(absorption system) 23
第三章 系統模擬 27
3-1 TRNSYS 動態系統程式模擬簡介 27
3-2 氣象資料 30
3-3 系統整合模擬 31
第四章 結果與討論 34
4-1 溶液儲存槽體積對於系統的影響 35
4-2 收集器面積對於系統的影響 41
第五章 結 論 51
參考文獻 53
參考文獻 References
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[9] Yang, R. and Wang, P. L. ,”A simulation study of performance evaluation of single-glazed and double-glazed collectors/regenerators for an open-cycle absorption solar cooling system,” Solar Energy Vol. 71, No. 4, pp.263-268, 2001
[10] Florides, G. A. ,Kalongirou, S. A. ,Tassuo, S. A. and Wrobel, L. C. ,”Modeling and simulation of an absorption solar cooling system for Cyprus ,” Solar Energy Vol. 72, No. 1, pp.43-51, 2002
[11] Atmaca, I. and Yigit, A. ,”Simulation of solar-powered absorption cooling system,” Renewable Energy 28, pp1277-1293, 2003
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[13] Liu, Y. L. and Wang, R. Z. ,”Performance prediction of a solar/gas driving double effect LiBr-H2O absorption system,” Renewable Energy 29, pp.1677-1695, 2004
[14] Assilzadeh, F. ,Kalogirou, S. A. ,Ali, Y. and Spoian, K. ,”Simulation and optimization of a LiBr solar absorption cooling system with evacuated tube coolectors,” Renewable Energy 30, pp.1143-1159, 2005
[15] Li, Z. F. and Sumathy, K. ,”Simulation of a solar absorption air-conditioning system,” Energy Conversion & Management 42, pp.313-327, 2001
[16] 太陽能之應用與理論,黃文雄著﹒協志工業叢書﹒ 1978
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