Butler-Volmer current equation and fractal nature correction in electrochemical energy
Autor: | Z Jelena Manojlovic, M Goran Lazovic, Vojislav V. Mitić, N Maja Stankovic, Nenad S. Krstić, M Dragan Djordjevic, Vesna Paunović |
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Rok vydání: | 2021 |
Předmět: |
fractal dimension
Materials science Renewable Energy Sustainability and the Environment butler-volmer equation Butler–Volmer equation Mechanics 7. Clean energy Fractal dimension Electrochemical energy conversion Energy storage Butler-Volmer equation Electricity generation Fractal electrochemistry Hydrogen fuel fractals Arrhenius equation TJ1-1570 arrhenius equation Mechanical engineering and machinery thermodynamic parameters Efficient energy use |
Zdroj: | Thermal Science Thermal Science, Vol 25, Iss 3 Part A, Pp 1837-1848 (2021) |
Popis: | The Global Energy Crisis necessitated improving research into new, renewable and alternative energy sources. Due to that, our focus is on the area of some phenomena and applications where different synthetic methods and micro-structure property optimization achieved significant improvement in the electro physical properties of output materials and components. This is especially important for higher energy efficiency and electricity production (batteries and battery systems, fuel cells, and hydrogen energy).The improvement of energy storage tank capacity is one of the most important development issues in the energy sphere too. It is because of this very promising research and application area that we are expanding the knowledge on these phenomena through fractal nature analysis. So, the results obtained in the field of electrochemical energy sources, especially in electrolyte development, are taken into account the analysis of fractal nature optimization. Based on the research field of fractal material science, particularly electronic materials, we conducted research in micro-structure fractal influence in the area of electrochemistry. We investigated the consolidation parameters of Fe2O3 redox processes. The influence of activation energy, fundamental thermodynamic parameters, and also the fractal correction of electrode surface area through complex fractal dimension with recognized grains and pores, and the Brownian motion of particles is introduced. Finally, the electrochemical Butler-Volmer equation fractalization is obtained. These results practically open new frontiers in electrochemical energy processes performed through the Arrhenius equation within electrolyte bulk and electrode relations and more complete and precise energy generation. |
Databáze: | OpenAIRE |
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