Experimental study on combustion characteristics of sodium fire in a columnar flow |
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Authors: | Zhi-Gang Zhang Kang-Wei Peng Yan Huo Ming Guo |
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Affiliation: | 1. Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University, Number 145, Nantong Street, Harbin 150001, Chinazzgbest@hotmail.com;3. Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University, Number 145, Nantong Street, Harbin 150001, China;4. College of Aerospace and Civil Engineering, Harbin Engineering University, Number 145, Nantong Street, Harbin 150001, China |
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Abstract: | In the operation of the sodium-cooled fast reactor, the accident caused by the leakage and combustion of liquid sodium is common and frequent in sodium-related facilities. This paper is based on an experimental study of sodium fire in a columnar flow, which was carried out to focus on the burning characteristics by analyzing the temperature fields in the burner. The injection of 200 °C liquid sodium with the flux of 0.5 m3/h was poured into a 7.9 m3 volume stainless steel cylindrical burner to shape a sodium fire, and the data of temperature fields in the burner have been collected by dozens of thermocouples which are laid in the combustion space and sodium collection plate. These results show that the sodium fire in a columnar flow is composed of the foregoing centered columnar fire, the subsequent spray fire caused by atomization and the pool fire on the collection plate. The temperature close to the burning sodium flow maximally reaches up to 950 °C. The radial temperatures apart from the sodium flow are relatively low and generally about 200 °C, and maximally just 300 °C even when close to the sodium collection plate. The maximum temperature of the burning sodium dropping on the collection plate rises in the center of plate, about 528 °C. This study is helpful to evaluate the combustion characteristics, formation process and composing forms of the sodium fire in the sodium-related facilities. |
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Keywords: | LMFR sodium columnar flow columnar fire pool fire spray fire temperature field |
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