Pooria Farmand, M. Sc.
E-Mail: p.farmand(at)itv.rwth-aachen.de
Adresse:
Institut für Technische Verbrennung
RWTH Aachen University
Templergraben 64
52056 Aachen
Telefon: +49 (0)241 80-94544
Telefax: +49 (0)241 80-92923
Büro: 219 (2. Etage)
Arbeitsgebiete
Forschung: Direct Numerical simulations of solid fuel combustion
Publikationen
- H. Chu, S. Bose, M. Mobarakeh, P. Farmand, R. Kholghy and H. Pitsch. Sensitivity Analysis of Point-particle Models for Aluminum Particle Combustion. 2nd International MeCRE Conference 2024, 13-15 November, Darmstadt, Germany, 2024.
- H. Chu, S. Bose, M. Mobarakeh, P. Farmand, R. Kholghy and H. Pitsch. Modeling Single Aluminum Particle Combustion in Various Oxidizers. In 19th International Conference on Numerical Combustion, 2024.
- Pooria Farmand, Hendrik Nicolai, Muhammad Usman, Lukas Berger, Antonio Attili, Michael Gauding, Christian Hasse and Heinz Pitsch. Modeling homogeneous ignition processes of clustering solid particle clouds in isotropic turbulence. Fuel, vol. 371, page 132054, 2024.
- P. Farmand, C. Boehme, H. Nicolai, F. Loffredo, P. Debiagi, M. Gauding M., C. Hasse and H. Pitsch. Modeling of NOx emissions in laminar solid pulverized biomass fuels flames. In 19th International Conference on Numerical Combustion, 2024.
- Tao Li, Pooria Farmand, Haowen Chen, Christian Boehme, Hendrik Nicolai, Christian Hasse, Heinz Pitsch and Benjamin Böhm. Homogeneous ignition and volatile flame structure of single bituminous coal and walnut shell particles: Effects of particle size and gas atmosphere. Fuel, vol. 371, page 131955, 2024.
- P. Farmand, H. Nicolai, M. Usman, L. Berger, A. Attili, C. Hasse and H. Pitsch. Modeling homogeneous ignition processes of clustering solid particle clouds in isotropic turbulence. 4th international Workshop on Oxyfuel combustion, Naples, March 23rd, 2023.
- Tao Li, Bo Li, Pooria Farmand, Andreas Dreizler, Heinz Pitsch and Benjamin Boehm. Motion and swelling of single coal particles during volatile combustion in a laminar flow reactor. Proceedings of the Combustion Institute, vol. 39 no. 3, pages 3333-3341, 2023. [DOI]
- 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, 01 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]
- Antonio Attili, Pooria Farmand, Christoph Schumann, Sima Farazi, Benjamin Böhm, Tao Li, Christopher Geschwindner, Jan Köser, Andreas Dreizler and Heinz 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, vol. 106 no. 2, pages 515-531, 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.
Offene Stellen/Arbeiten
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