Study on the diffusion of hydrogen fluoride in an electrolytic fluoride plant based on CFD numerical simulation method.
10.3760/cma.j.cn121094-20200930-00553
- Author:
Qing Dong WU
1
;
Yu Jian DUAN
1
;
Pei Yao LIU
1
;
Jing Ming ZHAN
1
Author Information
1. China Institute for Radiation Protection Department of Radiological Medicine and Environmental Medicine, Taiyuan 030006, China.
- Publication Type:Journal Article
- Keywords:
Computer simulation;
Hydrogen fluoride;
Occupational health
- MeSH:
Computer Simulation;
Fluorides;
Humans;
Hydrofluoric Acid;
Occupational Exposure/prevention & control*;
Occupational Health
- From:
Chinese Journal of Industrial Hygiene and Occupational Diseases
2022;40(2):152-155
- CountryChina
- Language:Chinese
-
Abstract:
Objective: Using CFD technology to grasp the distribution and diffusion of hydrogen fluoride in an electrolytic fluorine plant, provide guidance and scientific basis for enterprises to carry out occupational health management in enterprises, install hazardous substance alarm devices, and protect workers' occupational health. Methods: In July 2019, the diffusion law of hydrogen fluoride gas produced in an electrolytic fluorine plant is selected as the research object. Through the establishment of models and grids, the Fluent numerical simulation method is finally used to simulate the diffusion and distribution of hydrogen fluoride gas under ventilation conditions. Results: The results showed that the average concentration of hydrogen fluoride was 0.045 mg/m(3) in the workplace, and the absorbed zone height (1.5 m) was 0.02 mg/m(3) in the inspection channel, which was in accordance with the national standard. However, there is eddy current above the electrolyzer near the inlet, may lead to the accumulation of hydrogen fluoride gas. Conclusion: The research of CFD numerical simulation method on the distribution and diffusion of hydrogen fluoride concentration in electrolytic fluorine plant can be applied to the prevention, control and management of occupational hazards in electrolytic fluorine plant.
