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研究生: 陳奕滄
Yi-Cang, Chen
論文名稱: 鑄造工廠五重熱電聯產系統
Penta Generation System on a Foundry
指導教授: 陳韋任
Chen, Wei-Jen
口試委員: 莫懷恩
Mo, Huai-En
鄧敦平
Teng, Tun-Ping
陳韋任
Chen, Wei-Jen
口試日期: 2024/07/08
學位類別: 碩士
Master
系所名稱: 工業教育學系
Department of Industrial Education
論文出版年: 2024
畢業學年度: 112
語文別: 中文
論文頁數: 54
中文關鍵詞: 鑄造有機朗肯循環吸收式冷凍循環熱交換器工程方程式求解器
英文關鍵詞: Casting, Organic Rankine cycle, Absorption Refrigeration cycle, Heat Exchanger, Engineering Equation Solver
研究方法: 實驗設計法
DOI URL: http://doi.org/10.6345/NTNU202401329
論文種類: 學術論文
相關次數: 點閱:132下載:2
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  • 本研究旨在回收大型鑄造工廠等待模具冷卻時所產生的廢熱,利用熱交換器串聯而成五重熱電聯產系統,藉以達到節省電費及減少碳排放量之目的。五重熱電聯產系統係利用熱交換器,將廢熱分別輸送至(1)有機朗肯循環(ORC)進行發電、(2)吸收式冷凍循環(ARC)進行冷凍、(3)產生洗滌用熱水及(4)在寒冷天氣使用暖氣。首先,本研究應用工程方程式求解器(EES)模擬計算各系統熱效率、性能係數及熱傳率,並分析系統之發電量、冷凍能力、熱傳率及減碳量。繼之,以自由模式、冬季模式及夏季模式,按照每度電價2.8458元的基準值,在各模式下找到各子系統最佳溫度點及節省電費最大值,以及計算整體系統之節省電費金額及所減少的碳排放量。
    研究結果顯示,在冬季模式下,將熱量集中到暖氣和熱水最經濟,因為它們的熱效率較高。夏季模式下,如果熱水充足,ORC是最節省錢的,因為它的熱效率較ARC高。然而,由於ORC的熱效率在某些溫度區間下只有約10%,系統建議不使用ORC。相反,如果將10kW的熱源用來產製熱水,並以熱泵的COP為4來計算,可以省下2.5kW的電力,這比使用ORC更有經濟效益。因此,選擇最適合的模式和設定可以幫助節省能源並提高經濟效益。

    This study aims to recover the waste heat generated by large foundries while waiting for mold cooling. By using a heat exchanger, the waste heat is transported to a five-fold heat-electricity cogeneration system, which includes (1) an Organic Rankine Cycle(ORC)for power generation, (2) an Absorption Refrigeration Cycle(ARC)for refrigeration, (3) production of hot water for washing, and (4) heating in cold weather. This aims to save electricity costs and reduce carbon emissions.
    Firstly, the Engineering Equation Solver(EES)is used to simulate and calculate the thermal efficiency, performance coefficient, and heat transfer rate of each system, and analyze the power generation, refrigeration capacity, heat transfer rate, and carbon reduction of each component.
    Then, in free mode, winter mode, and summer mode, the optimal temperature point of each subsystem and the maximum electricity saving are found according to the standard value of 2.8458 yuan per degree of electricity. The total electricity saving and reduced carbon emissions of the entire system are calculated.
    The results show that in winter mode, concentrating heat on heating and hot water is the most economical because their thermal efficiency is higher. In summer mode, if there is enough hot water, ORC is the most cost-saving because its thermal efficiency is higher than ARC. However, since the thermal efficiency of ORC is only about 10% in some temperature ranges, the system recommends not using ORC. On the contrary, if 10 kW of heat source is used to produce hot water, and the COP of the heat pump is calculated as 4, 2.5 kW of electricity can be saved, which is more economical than using ORC. Therefore, choosing the most suitable mode and settings can help save energy and improve economic efficiency.

    謝辭 i 摘要 ii Abstract iii 目次 v 表次 vii 圖次 viii 第一章 緒論 1 第一節 研究動機與背景 1 第二節 研究目的 3 第三節 研究流程 4 第二章 文獻探討 5 第一節 鑄造 5 第二節 有機朗肯循環 8 第三節 吸收式冷凍循環 11 第四節 熱交換器 15 第三章 研究方法與設計 19 第一節 研究架構 19 第二節 有機朗肯循環 20 第三節 吸收式冷凍循環 22 第四節 熱交換器之洗滌熱水 25 第五節 熱交換器之暖氣 27 第六節 系統節費計算 28 第四章 研究結果與討論 31 第一節 自由模式 32 第二節 冬季模式(熱水足夠) 35 第三節 冬季模式(熱水不足夠)37 第四節 夏季模式(熱水足夠) 40 第五節 夏季模式(熱水不足夠)42 第六節 綜合討論 45 第五章 結論與建議 47 第一節 結論 47 第二節 建議 48 參考文獻 49 符號表 53

    方俊仁(2017)。加熱爐壁廢熱回收熱電發電系統設計與應用。臺灣鑛業。69(3),23-33。
    王立宏(2023)。熱力學必勝秘笈。臺北市:高點。
    台灣電力公司(2022 年12月2日)。112年起本公司高壓及特高壓用戶電價夏月期間調整為5月16日至10月15日。台灣電力公司官網。取自 https://www.taipower.com.tw/tc/page.aspx?mid=238
    徐金城(譯)(2021)。熱傳遞(原作者:Yunus A. Cengel, Michael A. Boles)。 臺北市:東華。(原著出版年:2001)
    莊瑞誠、張秉宏、李天源、林育立(2016)。大型工業熱輻射回收系統技術分析。燃燒季刊。95,5-13。
    經濟部能源局(2023 年8月25日)。能源統計手冊。經濟部能源局官網。取自https://www.esist.org.tw/
    蔡建雄、張金龍、王耀男(譯)(2015)。熱力學(原作者:Yunus A. Cengel, Michael A. Boles)。 臺北市:東華。(原著出版年:2001)
    簡文通(2021)。機械製造。臺北市:全華。
    Farhat, O., Faraj, J., Hachem, F., Castelain, C., & Khaled, M. (2022). A recent review on waste heat recovery methodologies and applications: Comprehensive review, critical analysis and potential recommendations. CleanerEngineering and Technology, 6, 100387.
    Garousi Farshi, L., Seyed Mahmoudi, S. M., & Rosen, M. A. (2011). Analysis of crystallization risk in double effect absorption refrigeration systems. Applied Thermal Engineering, 31(10), 1712-1717.
    Hung, T. C., Shai, T. Y., & Wang, S. K. (1997). A review of organic rankine cycles (ORCs) for the recovery of low-grade waste heat. Energy, 22(7), 661-667.
    Herold, Keith E.,Radermacher, Reinhard., Klein, Sanford A. (1996). Absorption Chillers and Heat Pumps.America: CRC-Press; HAR/DSKT.
    Kaushal Yan Kaushal, M. (2017). Geothermal cooling/heating using ground heat exchanger for various experimental and analytical studies: Comprehensive review. Energy and Buildings, 139, 634-652.
    Kang, J. O., & Kim, S. C. (2019). Heat transfer characteristics of heat exchangers for waste heat recovery from a billet casting process. Energies, 12(14), 2695.
    Marashli, A., Alfanatseh, E., Shalby, M., & Gomaa, M. R. (2022). Modelling single-effect of Lithium Bromide-Water (LiBr–H2O) driven by an evacuated solar tube collector in Ma'an city (Jordan) case study.Case Studies in Thermal Engineering, 37, 102239.
    Quoilin, S., Broek, M.Van Den, Declaye, S., Dewallef, P., & Lemort, V. (2013). Techno-economic survey of organic rankine cycle (ORC) systems. Renewable and Sustainable Energy Reviews, 22, 168-186.
    Samadifar, M., & Toghraie, D. (2018). Numerical simulation of heat transfer enhancement in a plate-fin heat exchanger using a new type of vortex generators. Applied Thermal Engineering , 133, 671-681.
    Wang, Y., Morosuk, T., Yang, S., & Cao, W. (2023). A high-efficiency multi-function system based on thermal desalination and absorption cycle for water, water-cooling or water-heating production.Energy Conversion and Management, 284, 116962.
    Yan, L., Liu, J., Ying, G., & Zhang, N. (2023). Simulation Analysis of Flue Gas Waste Heat Utilization Retrofit Based on ORC System.Energy Engineering, 120(8), 1919–1938.
    Yu, H.,Feng, X., & Wang, Y. (2015). A new pinch based method for simultaneous selection of working fluid and operating conditions in an ORC (Organic Rankine Cycle) recovering waste heat. Energy, 90, 36-46.
    Zhang, J., Zhu, X., Mondejar, M. E., & Haglind, F. (2019). A review of heat transfer enhancement techniques in plate heat exchangers.Renewable and Sustainable Energy Reviews, 101, 305-328.

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