Recommendations for Designing Converters with Regular Structure
Serikuly Z. Kumisbekov S.A. Volnenko A.A. Mutalov N.B.
2024Praise Worthy Prize
International Review of Mechanical Engineering
2024#18Issue 4189 - 195 pp.
The article discusses the design and the optimization of converters for converting vibration energy into electrical energy by using the vortex interaction of flows. Given the global need to transition to renewable energy sources in response to climate change, this research focuses on improving the structural efficiency of vibrational energy converters. By using a laboratory setup with a regular structure of transducers, the effect of the ratio of the width of the contact area of the transducer to the width of the free end on the amplitude and frequency of oscillations has been studied. Based on the results of the research, the optimal width ratio that maximizes vibration energy output while ensuring material efficiency and structural strength has been determined. The findings show that a minimum contact zone width not only reduces material costs, but also increases vibration energy output, which is key to the efficiency of energy conversion processes. Mathematical calculations of the vibration movements of converters based on experimental data provide a reliable basis for predicting performance and guiding design improvements of future installations. This study contributes to the broader field of renewable energy technologies by offering a detailed analysis of the parameters affecting the efficiency of vibrational energy converters.
Energy Conversion , Regular Structure of Converters , Simultaneous Vortex Formation , Vibration Amplitude , Vibration Frequency
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Faculty Mechanical and Petroleum Engineering, M. Auezov South Kazakhstan University, Shymkent, 160012, Kazakhstan
Mechanics and Engineering Scientific–Research Institutes, M. Auezov South Kazakhstan State University, Shymkent, 160012, Kazakhstan
Faculty Mechanical and Petroleum Engineering
Mechanics and Engineering Scientific–Research Institutes
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