News
-
Learning Thermodynamics through Jupyter Notebook (Python)?
As part of the course MCG 2530 – Thermodynamics 1 (Fall 2025 semester), Part B (optional) of the assignments was designed to progressively introduce students to the use of Jupyter Notebook (Python) as a tool for analysis and modeling in thermodynamics. Unlike traditional paper-and-pencil exercises, these activities emphasize: Students work in an interactive environment combining
-
Jahan participated in the ESPResSo Summer School
Our PhD student Jahan, participated in the summer school titled: “Systematic coarse-graining and machine learning in soft matter physics with ESPResSo” taking place on October 6-10, 2025 in Stuttgart, Germany. In this event, Jahan also presented a poster of his PhD research: “Morphological analysis of agglomerate size effect on the thermal restructuring kinetics of DLCA
-
New publication: “Progress in multi-scale modeling of soot particle aggregation in laminar sooting flames”
Full story here: https://doi.org/10.1016/j.pecs.2025.101234
-
New seminar: “Understanding nanoparticles formation in reactive flows: insights from experiments and simulations”
-
New publication: “Aerodynamic Size-Dependent Collection and Inactivation of Virus-Laden Aerosol Particles in an Electrostatic Precipitator”
By: Lan Wang, José Morán, Bernard A. Olson, My Yang, Christopher J. Hogan Jr., Montserrat Torremorell This is a publication resulting from a collaboration with the Department of Mechanical Engineering (Prof. Chris Hogan’s group) and the Department of Veterinary Medicine (Prof. Montserrat Torremorell’s group) of the University of Minnesota, USA. Our work has been published