Forschung: -

Lehre: -

• P. Farmand, H. Nicolai, C. Schumann, A. Attili, L. Berger, T. Li, C. Geschwindner, F. di Mare, C. Hasse, B. Böhm, J. Janicka and H. Pitsch. Numerical investigation and assessment of flamelet-based models for the prediction of pulverized solid fuel homogeneous ignition and combustion. Combustion and Flame, vol. 235, page 111693, January 2022. [DOI]
• T. Li, P. Farmand, C. Geschwindner, M. Greifenstein, J. Koeser, C. Schumann, A. Attili, H. Pitsch, A. Dreizler and B. Boehm. Homogeneous ignition and volatile combustion of single solid fuel particles in air and oxy-fuel conditions. Fuel, vol. 291, 2021. [DOI]
• K. Froehlich, P. Farmand, H. Pitsch, M. Meinke and W. Schroeder. Particle Reynolds number effects on settling ellipsoids in isotropic turbulence. International Journal of Multiphase Flow, vol. 139, page 103566, 2021. [DOI]
• A. Attili, P. Farmand, C. Schumann, S. Farazi, B. Bohm, T. Li, C. Geschwindner, J. Koser, A. Dreizler and H. Pitsch. Numerical Simulations and Experiments of Ignition of Solid Particles in a Laminar Burner: Effects of Slip Velocity and Particle Swelling. Flow Turbulence and Combustion, 2020. [DOI]
• P. Farmand, C. Schumann, A. Attili and H. Pitsch. Direct numerical simulation of solid fuel ignition and combustion in laminar and turbulent conditions. In Oxyflame International Workshop, March 4th , Montabaur (Germany), 2020.
• A. Attili, P. Farmand, S. Farazi, B. Böhm, T. Li, C. Geschwinder, J. Köser, A. Dreizler and H. Pitsch. Numerical simulation and experiments of ignition and combustion of solid particles in a laminar burner. In International Workshop on Clean Combustion: Principles and Applications, September 25th-26th, Darmstadt, Germany, 2019.