研究生: |
王哲鴻 Wang, Jhe Hong |
---|---|
論文名稱: |
直流加熱體探討 Study on DC Heaters |
指導教授: |
謝振傑
Chieh, Jen-Jie |
口試委員: |
王立民
WANG, LI-MIN 廖書賢 Liao, Shu-Hsien 謝振傑 SIE, JHEN-JIE |
口試日期: | 2021/09/13 |
學位類別: |
碩士 Master |
系所名稱: |
光電工程研究所 Graduate Institute of Electro-Optical Engineering |
論文出版年: | 2021 |
畢業學年度: | 109 |
語文別: | 中文 |
論文頁數: | 42 |
中文關鍵詞: | 電熱 、鎳絡絲 、鎢絲 、奈米碳 、石墨 、吸收熱能 |
英文關鍵詞: | electro-thermal, Nickel wire, Tungsten, Nanocarbon, Graphite, absorb heat |
研究方法: | 實驗設計法 |
DOI URL: | http://doi.org/10.6345/NTNU202101823 |
論文種類: | 學術論文 |
相關次數: | 點閱:116 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
自盤古開天來,火一直是人類文明生活重要的象徵,因為從餐飲到環控都需要熱能,但火的相關器具也伴隨高危險性。因此電熱已是現在生活進化的重要課題,許多新建案的炊火工具都已經全面用電磁爐、電熱水器等電熱設備取代天然氣瓦斯等傳統方式。但是電熱設備往往因加熱器的產熱效率不佳,而一直數百年來難有突破。本文比較現今電熱代表的線狀鎳絡絲,包含其不同纏繞方式,與導電粉末式。以相同或相似載體材料(陶瓷或玻璃管)時,載體體積影響被吸收而無法熱傳的熱能外,載體材質也影響熱傳方式與效益。而更關鍵影響的是電熱材料的空間分布方式,以鎳絡絲為例,相同電阻值卻因纏繞陶瓷體的方式而有明顯的溫度差異。相反的,導電式粉末的產熱效益卻受電阻值影響小,但受載體(材質、體積)影響大。而在導電粉末的載體3cm外以近紅外光譜檢測發出的電磁波,更高度吻合黑體輻射1900K的近紅外線波形,遠高於載體外表面量測的溫度~1100K,說明紅外線量測法可以克服載體隔閡量測電熱材料的溫度。而這些直流電能除了由直流供應器輸出,也可以由幾個鋰電池即可提供。
Since the beginning of Pangu, fire has always been an important symbol of human civilization and life because heat energy is needed from catering to environmental control. However, fire-related appliances are also associated with high risks. Therefore, electric heating has become an important subject in the evolution of life. For example, many newly-built cooking tools have fully replaced traditional methods such as natural gas and gas with electric heating equipment such as induction cookers and electric water heaters. However, electric heating equipment is often limited due to poor heat generation efficiency of heaters, and has been difficult to make breakthroughs for hundreds of years. This article compared the current representative wire type of nickel wires, including its winding methods, and the different type of conductive powder. When the same or similar carrier materials (ceramic or glass tube) were used, the volume of the carrier affected the absorbed heat energy, unable to transfer, and the carrier material also affected the heat transfer method and efficiency. The more critical influence is the spatial distribution of the electric heating material. For nickel wires, the same resistance value has a significant temperature difference with the wound way around the ceramic body. On the contrary, the heat generation effect of conductive powder was less affected by the resistance value, but greatly affected by the carrier properties (like material, volume).
The detected electromagnetic wave outside the conductive powder carrier in 3-cm distance by near-infrared spectroscopy more closely matched the near-infrared waveform of black body radiation of 1900K, much higher than the measured temperature on the outer surface of the carrier ~1100K. It indicated that the infrared measurement method can overcome the measurement limitation of carriers for the temperature measurement of electric heating materials. In addition to the output of the DC power supply, the DC power can also be provided by several lithium batteries.
[1] Lassner E. and Schuvert W-D, Tungsten: Properties, Chemistry, Technology, of the Element, Alloys, and Chemical Compounds, Springer Science Business Media, New York, 1999
[2] JLab Science Education, “The Element Tungsten”, (accessed February 10, 2020)
[3] Mitchell, A., Granites, Minor Intrusions, and Mineralization in the Slate Belt, Phayaungtaung, and Gaoligong Range”, Geological Belts, Plate Boundaries, and Mineral Deposits in Myanmar, 2018
[4] Encyclopedia Britannica, “Tungsten Processing, (accessed on February 10, 2020)
[5] U.S. Department of the interior, Bureau of Mines, “Tungsten”, Annual Report, November 1994.
[6] U.S. Geological Survey, “Tungsten”, Mineral Commodity Summaries, January 2020, (accessed on February 10, 2020)
[7] DiMaggio R. and Barone, P.M. Geoscientists at Crime Scenes, Springer Nature, Cham, Switzerland, 2017, Available: (accessed February 10, 2020)
[8] John Emsley, Nature’s Building Blocks: An A-Z Guide to the Elements, Oxford University Press, New York, 2nd Edition, 2011.
[9] Thomas Jefferson National Accelerator Facility - Office of Science Education, It’s Elemental - The Periodic Table of Elements, accessed December 2014.
[10] "Advanced Topic: Oxidation Resistant Materials". Sciences Education Foundation. General Atomics. 2002
[11] Keefe, T.J. (2007). "The Nature of Light". Archived from the original on 23 April 2012. Retrieved 5 November 2007.
[12] Created by Fastfission in Inkscape. File:Incandescent light bulb.svg May 7, 2006
[13]. Michael W. Davidson - National High Magnetic Field Laboratory, 1800 East Paul Dirac Dr., The Florida State University, Tallahassee, Florida, 32310.
[14] Nassar, A. and M. Mednik, Introductory physics of harmonic distortion in fluorescent lamps. American Journal of Physics, 2003.71(6): p.577-579.
[15] 陳旻鴻,「交流 LED 特性之研究」,國立成功大學電機工程學系碩士論文,民國九十八年六月
[16] 節能照明技術—淺談發光二極體 作者/許世杰(任教淡江大學化學工程與材料工程學系)科學月刊5月號(593期)
[17] Own work by uploader, drawn in Solid Edge and Inkscape. 5 April 2009
[18] What is heat conduction? by Matt Williams, Universe Today DECEMBER 9, 2014
[19] S. Blundell, K. Blundell (2006). Concepts in Thermal Physics. Oxford University Press. p. 247. ISBN 978-0-19-856769-1.
[20] 近代物理學的簡介 Introductory Modern Physics, 量子論 國立臺灣大學物理所羅雅琳 2013/10/17
[21] Samuel J. Ling (Truman State University), Jeff Sanny (Loyola Marymount University), and Bill Moebs with many contributing authors. This work is licensed by OpenStax University Physics under a Creative Commons Attribution License (by 4.0).
[22] Planck, M. (1914). The Theory of Heat Radiation.