M.Sc. Simson Julian Rodrigues
M.Sc. Simson Julian Rodrigues
Geboren 1992 in Mumbai, Indien
Juni 2010 - August 2014
Bachelorstudium Mechanical Engineering, Visvesvaraya Technological University, Indien
Bachelorarbeit: Self powered roads - Harvesting energy from moving vehicles (Turbulent Kinetic Energy) using wind turbines.
Juni 2015 – Juli 2016
Management Trainee, Escon Gensets PVT LTD, Bengaluru, Indien
September 2016 - Oktober 2019
Masterstudium Chemical and Energy Engineering an der Otto-von-Guericke-Universität Magdeburg
Masterarbeit: Simulation of two-phase flow inside of PEM electrolyzer porous electrodes
seit Juli 2020
Wissenschaftlicher Mitarbeiter am Lehrstuhl für Thermische Verfahrenstechnik, Otto-von-Guericke-Universität Magdeburg
Forschungsgebiet:
Contact heat transfer and heat conduction in packed beds of edged particles
A central parameter of thermal DEM is the particle-particle heat transfer coefficient during binary contacts. Contact heat transfer is always important when heat is transmitted from a wall to an adjoining bed of particles in order to conduct thermochemical processes, but in presence of steep temperature profiles, it can also be significant when heat is supplied from the gas phase. Despite of its central role, simplified models, the validity of which is questionable even in the case of equally sized spheres, are used to calculate contact heat transfer. Despite many practical applications, any reliable background is missing in the case of edged, polyhedral particles.
The main goal of the research is to develop a new and more reliable way of predicting the heat transferred when particles come for a certain period of time in contact with each other from effective packed bed thermal conductivity. Therefore, effective packed bed thermal conductivity shall be investigated by experiments and simulations for a wide range of different polyhedral particles. This will enable the prediction of effective thermal conductivity and contact heat transfer not only for spheres but also for arbitrary materials that consist of polyhedron-like particles. In this frame, packed bed porosity and the relative area of flat interparticle contacts will also be derived from X-ray μ-CT imaging results and correlated with adequately defined particle form parameters. Moreover, interstitial packed bed morphology, including pore size variability, will be characterized. Effective packed bed thermal conductivity and particle-particle heat transfer coefficient will be considered based on average values. Ultimately, the research goal is to place the thermal part of the DEM on a scientifically well-founded and technically easily usable basis for particles of any shape.
This research is part of Collaborative Research Center/Transregios 287 "Bulk-Reaction." More information on the whole collaborative project can be found on site: https://bulk-reaction.de/.
Publikationen:
Rodrigues, S. J.; Vorhauer-Huget, N.; Tsotsas, E. Effective thermal conductivity of packed beds made of cubical particles. International Journal of Heat and Mass Transfer, 194 (2022) 122994. doi:https://doi.org/10.1016/j.ijheatmasstransfer.2022.122994
Contact heat transfer and heat conduction in packed beds of edged particles