Study on the combustion of micro organic dust particles in random media with considering effect of thermal resistance and temperature difference between gas and particles

Publication date: Available online 10 March 2018 Source:Chemical Engineering and Processing - Process Intensification Author(s): Mehdi Bidabadi, Qingang Xiong, Mohammadali Harati, Ebrahim Yaghoubi, Mohammad Hossein Doranehgard, Alireza Rahbari This paper presents an analytical model to investigate the effect of randomly distributed micro-organic dust particles on the flame propagation through the combustible mixture by considering the thermal resistance and temperature difference between the gas and the particles. The effect of thermal resistance on flame characteristics is intended by the dimensionless Biot number. It is concluded that the increase in Biot number leads to decrease in the burning velocity as well as flame temperature. Conclusively, flame characteristics for different Lewis numbers and particles radii are reported. Results show that both flame temperature and burning velocity increase with enhancement in the Lewis number. This research leads us to a deep understanding of random combustion of lycopodium particles and more practical prediction of particle combustion compared to the published theoretical studies. Graphical abstract
Source: Chemical Engineering and Processing: Process Intensification - Category: Chemistry Source Type: research
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