Open Access
Issue |
E3S Web Conf.
Volume 248, 2021
2021 3rd International Conference on Civil Architecture and Energy Science (CAES 2021)
|
|
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Article Number | 01058 | |
Number of page(s) | 4 | |
Section | Chemical Performance Structure Research and Environmental Pollution Control | |
DOI | https://doi.org/10.1051/e3sconf/202124801058 | |
Published online | 12 April 2021 |
- Zhi Xu. Study on gas-liquid two-phase motion mechanism and heat transfer characteristics of LED gravity heat pipe radiator [D]. Harbin Institute of technology, 2018. [Google Scholar]
- Xiaofeng Liu. Analysis on heat dissipation technology of high power LED [J]. Electronic world, 2018(10): 145–146. [Google Scholar]
- Liangliang Hu. Research on heat dissipation of high power LED based on pulsating heat pipe [D]. Hunan University of technology, 2013. [Google Scholar]
- Zhongliang Shen, Bing Lu, Siwen Li, et al. Progress of high power LED enhanced heat dissipation technology [J]. Light industry machinery, 2013. 31(02): 107–112. [Google Scholar]
- Liu Ju. Discussion on heat dissipation technology of high power LED [J]. Journal of Yichun University, 2014, 36(06): 46–49. [Google Scholar]
- Qiaojigang. Analysis of heat dissipation performance of high power LED lamp [j]. Scientific and technological wind, 2019 (17): 185. [Google Scholar]
- Ruan Wenqin. Design and analysis of heat dissipation structure of high power LED lamp [j]. Shandong industrial technology, 2019 (01): 8. [Google Scholar]
- Zeng Chuanrui, Chen Jirong, Wu Zhaoping. Heat dissipation design technology of high power LED lamp [J]. China new technology and new products, 2018 (09): 66–67. [Google Scholar]
- Fan Dengxin, Wu Qingqing, Zhou Xu, Yang Yuntao, Liu Dong. Research status of high power LED cooling technology [J]. China lighting appliances, 2018 (03): 11–16 + 20. [Google Scholar]
- Siqi Li. Research status of high power LED heat dissipation technology [J]. Light source and lighting, 2017 (03): 13–16. [Google Scholar]
- Ping’an Wang, Yunfei Wang, Lijuan Ma. Research on heat dissipation of high power LED lamps [J]. Science and technology outlook, 2016, 26 (26): 44. [Google Scholar]
- Chengyue Lin. Study on the influencing factors of LED lighting life [J]. Building materials and decoration, 2019 (24): 230–231. [Google Scholar]
- Yang Pei. Analysis of temperature rise and heat dissipation of LED lighting source [J]. Electronic production, 2018 (02): 42–43. [Google Scholar]
- Dan Dai, Yinsheng Chen. Application status and development trend of LED lighting technology [J]. Building electrical, 2014, 33 (12): 14–20. [Google Scholar]
- Xiaozhi Zhong. Research on Influencing Factors of LED lighting life [J]. Science and technology and enterprise, 2014 (24): 185. [Google Scholar]
- Jie Xu. Status and progress of LED lighting heat dissipation technology [n]. Consumer daily, November 20, 2014 (D03). [Google Scholar]
- Yanfei Li. Research on life and reliability of solid state lighting devices [D]. Shaanxi University of science and technology, 2013. [Google Scholar]
- Lin Zou. research on life influencing factors and test methods of LED lighting [D]. Dalian University of technology, 2013. [Google Scholar]
- Yujun Guo, Zhongliang Liu. Status and progress of LED lighting heat dissipation technology [J]. China lighting appliances, 2012 (02): 1–7. [Google Scholar]
- Feng Lin, Liping Xiang, Zhiwei Wu. Research and development of LED chip heat dissipation methods [J]. Journal of Hunan City University (NATURAL SCIENCE EDITION), 2019, 28 (02): 56–60. [Google Scholar]
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