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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
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dc.contributor.advisor | 陳希立(Sih-Li Chen) | |
dc.contributor.author | Hsueh-Fen Liao | en |
dc.contributor.author | 廖雪芬 | zh_TW |
dc.date.accessioned | 2021-06-08T03:28:38Z | - |
dc.date.copyright | 2019-08-20 | |
dc.date.issued | 2019 | |
dc.date.submitted | 2019-08-19 | |
dc.identifier.citation | 1.2017年非生產性質行業能源查核年報 (民國106年12月)。服務業節能服務網。民108年06月15,取自:
https://www.ecct.org.tw/Knowledge/knowledge_more?id=c9c4ba0635464429bf1386363b33520d 2.楊冠雄(2008),綠空調實踐與應用,內政部建築研究所出版 3.Lee, Y., and Mital, U., “A Two-Phase Closed Thermosyphon”, International Journal of Heat and Mass Transfer, Vol. 15, No. 9, pp. 1695-1707, 1972. 4.Lee, Y., and Bedrossian, A., “The Characteristics of Heat Exchangers Using Heat Pipes or Thermosyphons”, International Journal of Heat and Mass Transfer, Vol. 2l, No. 2, pp. 221-229, 1978. 5.Casarosa, C., and Latrofa, E., “The Gerser Effect in a Two-Phase Thermosyphon”, International Journal of Heat Mass Transfer, Vol. 26 No. 6, pp. 933-941, 1983. 6.王登科, “兩相流虹吸熱管之間歇性沸騰研究”, 國立台灣大學機械工程研究所碩士論文, 6, 1991. 7.Sparrow, E. M., Larson, E. D., and Ramsey, J. W., “Freezing on a Finned Tube for Either Conduction-Controlled or Natural-Convection-Controlled Heat Transfer”, International Journal of Heat and Mass Transfer, Vol. 24, No. 2, pp. 273-284, 1981. 8.S. L. Chen and M. J. Hsiao, 2001, Heat pipe circuit type thermal-battery, Patent No. US 6,220,337 B1. 9.謝振傑, “太陽能光電之智慧型能量管理系統應用於汽車自然空調”, 國立台灣大學機械工程研究所博士論文, 6, 2003. 10.Hamidreza Shabgard , Bin Xiao , Amir Faghri , Ramesh Gupta b, Walter Weissman, “Thermal characteristics of a closed thermosyphon under various filling conditions”, International Journal of Heat Mass Transfer, Vol. 70, pp. 91-102, 2014 11.Bandar Fadhl , Luiz C. Wrobel, Hussam Jouhara, “Numerical modelling of the temperature distribution in a two-phase closed thermosyphon”, Applied Thermal Engineering ,Vol.60 pp.122-131 2013 12.V. Guichet, S. Almahmoud, H. Jouhara, “Nucleate pool boiling heat transfer in wickless heat pipes (two-phase closed thermosyphons): a critical review of correlations”, Thermal Science and Engineering Progress (2019) 13.David A. Reay, “Thermal energy storage: the role of the heat pipe in performance enhancement”, International Journal of Low-Carbon Technologies, Vol10, pp.99-109 14.J. P. Holman, 2002, Heat Transfer, 9th ed., McGraw-Hill Book Company. 15.林茂青, “兩相密閉熱虹吸熱管儲熱系統之性能研究”, 國立台灣大學機械工程研究所博士論文, 6, 2003. 16.陳柏任, “應用熱管於儲能系統之研究”, 國立台灣大學機械工程研究所博士論文, 6, 2007. 17.W. Kays, M. Crawford, B. Weigand, Convective heat and mass transfer, Fourth Edition, McGraw-Hill, Boston 2005. 18.R. H. S. Winterton, 1998, “Where did the Dittus and Boelter equation come from?”, International Journal of Heat and Mass Transfer, Vol.41, pp.809-810. 19.D. Jung, C. B. Kim, S. M. Hwang and K. K. Kim, 2003, “Condensation heat transfer coefficients of r22, r407, and r410a on a horizontal plain, low fin, and Turbo-C tube”, International Journal of Refrigeration, Vol.26, pp.485-491. 20.A. A. Alhusseini, K. Tuzla and J. C. Chen, 1998, “Falling film evaporation of single component liquids”, International Journal of Heat and Mass Transfer, Vol.41, pp.1623-1632. 21.鄭詩穎,兩相熱虹吸式熱管儲冰槽實驗研究與分析,中國文化大學工學院機械工程學系數位機電碩士班碩士論文,7,2019 22.Y. A. Cengel, 2003, “Heat Transfer: A Practical Approach” , New York McGraw-Hill, pp. 785–841. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/21204 | - |
dc.description.abstract | 近年來由於氣候劇烈變化,夏日空調用電量急遽上升,若能將尖峰用電進行轉移,利用離峰電力進行儲能,能有助改善台灣的供電狀況。
本研究利用兩相熱虹吸式熱管優越的傳導特性進行能量傳遞與儲存,在不需要外部電能的供應下即可操作,藉由熱虹吸管內部工作流體的薄膜蒸發(Film evaporation)與薄膜冷凝(Film condensation)具有高傳熱能力機制進行熱交換,能夠有效提升儲冰槽之性能。 本研究提出新型的兩相熱虹吸式熱管儲冰槽設計,針對不同儲冰端溫度的儲冰性能進行分析,透過理論模式探討影響之參數,並與儲冰槽測試實驗進行熱傳量比對,誤差率約為 3.5% 至 6%。而後針對熱力電阻電容理論模式進行熱虹吸式熱管儲冰槽的改善策略分析,提出未來可提升儲冰性能之方向。 | zh_TW |
dc.description.abstract | In recent years, due to the dramatic changes in the climate, the amount of electricity used in summer air conditioners has risen sharply. If the peaks can be used for power transfer, using off-peak power for energy storage can help improve the power supply situation in Taiwan.
In this study, the superior conduction characteristics of the two-phase thermosyphon heat pipe are used for energy transfer and storage, and can be operated without the supply of external electric energy. Film evaporation and film condensation of the working fluid inside the thermosiphon (Film) Condensation) The high heat transfer capacity mechanism for heat exchange can effectively improve the performance of the ice storage tank. This study proposes a new two-phase thermosyphon heat pipe ice storage tank design, analyzing the ice storage performance of different ice storage temperatures, exploring the parameters of the influence through theoretical models, and compares the heat transfer with the ice storage tank experimental test. The error rate is approximately 3.5% to 6%. Then, based on the theoretical model of the thermoresistive capacitance, the improvement strategy of the thermosyphon heat pipe ice storage tank is analyzed, and the direction of improving the ice storage performance in the future is proposed. | en |
dc.description.provenance | Made available in DSpace on 2021-06-08T03:28:38Z (GMT). No. of bitstreams: 1 ntu-108-R05522332-1.pdf: 3521386 bytes, checksum: b66928b454b65976452472910fc2927b (MD5) Previous issue date: 2019 | en |
dc.description.tableofcontents | 摘要 i
ABSTRACT ii 致謝 iii 目錄 iv 表目錄 vi 圖目錄 vii 符號彙編 ix 第一章 緒論 1 1.1前言 1 1.2研究動機與目的 4 1.3文獻回顧 5 第二章 儲能系統 10 2.1 熱管特性介紹 10 2.2 熱管型式 11 2.2.1 毛細結構式熱管(Wick Heat Pipe) 11 2.2.2 兩相密閉熱虹吸熱管(Two-phase Closed Thermosyphon) 12 2.2.3 兩相密閉迴路熱虹吸熱管(Two-phase Closed Loop Thermosyphon) 15 2.3 兩相熱虹吸式熱管儲冰槽介紹 17 2.4 兩相熱虹吸式熱管儲冰槽運作模式 19 2.4.1 儲冰模式 19 2.4.2 融冰模式 20 2.4.3 結合移動式空調概念之運作模式 21 第三章 兩相熱虹吸式熱管儲冰槽理論分析 23 3.1 熱阻概念 23 3.2 熱阻分析模式 25 3.4 實驗測量參數 35 3.5 實驗之能量分析 36 3.5.1 鹵水熱傳量 36 3.5.2 儲冰槽儲冷量 37 第四章 結果與討論 39 4.1 數量級分析 41 4.2 理論值與實驗值之比較 41 4.2.1 低溫流體溫度對熱傳量之影響 42 4.3 儲冰槽性能改善設計分析 45 4.3.1 增加熱交換器內管管徑 45 4.3.2 增加鰭片段熱管管排 49 第五章 結論與建議 52 5.1 結論 52 5.2 建議 52 參考文獻 53 | |
dc.language.iso | zh-TW | |
dc.title | 兩相熱虹吸式熱管儲冰槽理論研究與分析 | zh_TW |
dc.title | Theoretical analysis of two-phase closed thermosyphon ice storage tank | en |
dc.type | Thesis | |
dc.date.schoolyear | 107-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 江沅晉(Yuan-Chin Chiang),張鴻明(Hong-Ming Jang) | |
dc.subject.keyword | 熱虹吸式熱管,儲冰槽,熱阻, | zh_TW |
dc.subject.keyword | thermosiphon heat pipe,ice storage tank,thermal resistance analysis, | en |
dc.relation.page | 55 | |
dc.identifier.doi | 10.6342/NTU201904010 | |
dc.rights.note | 未授權 | |
dc.date.accepted | 2019-08-19 | |
dc.contributor.author-college | 工學院 | zh_TW |
dc.contributor.author-dept | 機械工程學研究所 | zh_TW |
顯示於系所單位: | 機械工程學系 |
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