Abstract
According to the technical requirements in the national standard GB/T 3836.1-2021 "Explosive atmospheres - Part 1: General requirements for equipment", the temperature test system under the most unfavorable conditions for explosion-proof lamps is designed, and the maximum operating power detection and trigger technology for temperature test of explosion-proof induction lamps is proposed.
Publisher
Darcy & Roy Press Co. Ltd.
Reference6 articles.
1. Lijun Wang, Rui Wang, Xiaolin Li, Chao Yan. Temperature Rise Simulation of Medium Voltage Cubicle Type Gas Insulated Switch-Gear Based on Coupling of Multi-Physical Fields. [J]. IEEE Access,2019,7: 45395-45404.
2. Claudiu Ionel Nicola, Marcel Nicola, Dumitru Sacerdotianu, Marian Duta, Iulian Hurezeanu. Automatic System for Temperature Rise Test in Power Transformers[J]. International Journal on Engineering Applications (IREA),2019,7(2):40-51.
3. Shaodi Zhao, Yan Yin, Jiusheng Bao, Xingming Xiao, Zengsong Li, Guoan Chen. Analysis and correction on frictional temperature rise testing of brake based on preset thermometry method[J]. Industrial Lubrication and Tribology,2019,71(7):907-914.
4. Ju, Xu, Lin, Sun. Test and temperature field of finite element simulation about the effect of scanning speed on 304 stainless layer's properties by laser cladding[J]. Materials Research Innovations, 2015, 19 (sup8): S8-9-S8-13.
5. Wang Zezhong, Li Mingyang, Xuan Mengzhen, Huang Tianchao, Li Bing. Temperature Rise Test and Simulation of Single-Phase Four-Column Transformer under DC-Bias. Transactions of China Electrotechnical Society, 2021, 36(5): 1006-1013.