Abstract
European Union legislation requires organizations to assess their processes in the context of risk management. The main task of risk management is to manage all risks that can significantly affect the outcome of processes. The article is focused on risk evaluation in pressure leaching at elevated temperature using the method Fault Tree Analysis (FTA). The effectivity of pyrite and arsenic pyrite decomposition by oxidative pressure leaching is influenced by the duration of the process, by the temperature, concentration of the leaching solution and by a density of the slurry. It was found that, under equitable conditions, the arsenic pyrite decomposes more intensely than pyrite. Under laboratory conditions, leaching is performed in an autoclave. Due to the aggressive environment, increased pressure and temperature, process failure is possible. Its probability was calculated by FTA. It has been found that the probability of the top event in the examined process was disproportionately high (0.057) and represents an invitation to take corrective actions. The Monte Carlo method was used for the simulation of the effect the probability of basic events on the probability of the top event—the failure of the leaching process.
Highlights
Published: 22 July 2021Currently, it is very important to ensure the continuous improvement of all processes in the industry
The aim of the work is to study the application of the Fault Tree Analysis (FTA) method in the process of assessing and minimizing the risk of total failure of the leaching process, which can lead to damage to health or even endanger the lives of operating personnel in addition to Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
The results obtained have great potential for use in future safety research as well as in the hydrometallurgical leaching process. They prove that the application of the FTA method is suitable for improving the analyzed leaching process, and seems to be suitable for other hydrometallurgical technologies that work with aggressive substances, often at high temperature and pressure
Summary
It is very important to ensure the continuous improvement of all processes in the industry. The aim of the work is to study the application of the FTA method in the process of assessing and minimizing the risk of total failure of the leaching process, which can lead to damage to health or even endanger the lives of operating personnel in addition to Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The results obtained have great potential for use in future safety research as well as in the hydrometallurgical leaching process. They prove that the application of the FTA method is suitable for improving the analyzed leaching process, and seems to be suitable for other hydrometallurgical technologies that work with aggressive substances, often at high temperature and pressure
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