XIV International Conference on Industrial Engineering and Environmental Protection – IIZS 2024, str. 28-37
АУТОР / AUTHOR(S): Slobodan Jurić , Slavica Prvulović , Jasna Tolmac , Ljubiša Josimović , Uroš Šarenac , Miloš Josimović
DOI: 10.46793/IIZS24.028J
САЖЕТАК / ABSTRACT:
This study focuses on the level of vibrations in technical systems, risk models, and the reduction of both vibrations and associated risks. The research subject includes hydropower plant facilities, which are strategically significant for the power industry, hold substantial investment value, and consequently are crucial for the state. Vibration diagnostics methods will help predict potential issues, thereby reducing risk levels and maintenance costs, which is very important, and increase the efficiency of the technical system. Vibration issues are addressed through measurement, calculation, and frequency analysis of time functions. Measurement allows for experimental determination of all necessary quantities to be compared with calculation results. Often, it is simpler to measure vibrations than the parameters required for specific calculations. For these reasons, and due to other advantages of measurement (simplicity, monitoring, and analysis of system status, etc.), vibration measurement is a common experimental task for determining risk levels.
КЉУЧНЕ РЕЧИ / KEYWORDS:
Risk models, hydropower plants, bearings, vibration
ЛИТЕРАТУРА / REFERENCES:
- Kumar, D., Agarwal, S., „Risk Assessment of Vibrations in Hydropower Plant Structural Components,“ Journal of Renewable Energy Engineering, Vol. 11, No. 2, pp. 210-224, 2021.
- Wang, L., Chen, F., „Developing a Predictive Model for Vibration Risks in Hydropower Plants,“ Journal of Renewable Energy Systems, Vol. 8, No. 2, pp. 78-90, 2020.
- Zhao, L., Zhang, Q., „Assessment of Operational Vibration Risks in Hydropower Stations,“ International Journal of Renewable Energy Research, Vol. 10, No. 4, pp. 218-230, 2020.
- Taylor, D., Evans, R., „Effective Risk Management Strategies for the Energy Sector,“ Energy Policy, Vol. 149, pp. 67-80, 2021.
- Lee, C., Davis, T., „Risk Management Strategies for Business Continuity in Power Plants,“ Journal of Business Continuity & Emergency Planning, Vol. 15, No. 3, pp. 249-261, 2021.
- Jackson, S., Martin, G., „Effective Risk Management in the Energy Sector,“ International Journal of Energy Research, Vol. 44, No. 5, pp. 365-378, 2020.
- Wang, S., Li, H., „Development of a Vibration Monitoring System for Hydropower Units,“ Renewable Energy, Vol. 158, pp. 45-56, 2020.
- Singh, P., Sharma, R., „Vibration Analysis Techniques for Hydropower Turbine Health Monitoring,“ Renewable and Sustainable Energy Reviews, Vol. 124, pp. 109-122, 2020.
- Wilson, R., Clark, A., „Quality Risk Management and Compliance in Energy Systems,“ International Journal of Quality & Reliability Management, Vol. 39, No. 4, pp. 530-542, 2021.
- Sanchez, P., Romero, J., „Enhancing Decision-Making Processes Through Risk Management,“ Journal of Energy Management, Vol. 17, No. 1, pp. 190-202, 2021.
- Zhang, X., Liu, Y., „Assessment of Vibration Risk Levels in Hydropower Plants Using Machine Learning,“ Journal of Renewable and Sustainable Energy, Vol. 12, No. 4, pp. 325-339, 2021.
- Miller, J., Taylor, D., „Risk Matrices: A Tool for Effective Risk Management,“ Risk Management Journal, Vol. 25, No. 1, pp. 67-80, 2022.
- Johnson, T., Williams, R., „Graphical Methods for Risk Analysis in Project Management,“ Journal of Risk Analysis and Crisis Response, Vol. 11, No. 2, pp. 105-117, 2021.
- Patel, M., Gupta, S., „Probability and Consequence in Risk Assessment: A Quantitative Approach,“ Journal of Quantitative Risk Analysis, Vol. 17, No. 3, pp. 215-227, 2021.
- Davis, L., Johnson, P., „Consistent Preparation Techniques for Risk Analysis in Engineering Projects,“ Journal of Engineering Risk Management, Vol. 19, No. 2, pp. 135-148, 2020.
- Juric, S., Models of risk for assessment of vibration levels of technical systems, Doctoral dissertation, TF ”Mihajlo Pupin”, Zrenjanin, 2018.