Passive scalar interface in a spatially evolving mixing layer (A. Attili and D. Denker)

Quartz nozzle sampling (D. Felsmann)

Dissipation element analysis of a planar diffusion flame (D. Denker)

Turbulent/non-turbulent interface in a temporally evolving jet (D. Denker)

Dissipation elements crossing a flame front (D. Denker and B. Hentschel)

Particle laden flow (E. Varea)

Turbulent flame surface in non-premixed methane jet flame (D. Denker)

DNS of primary break up (M. Bode)

Diffusion flame in a slot Bunsen burner (S. Kruse)

Various quantities in spatially evolving jet diffusion flame (D. Denker)

OH layer in a turbulent wall bounded flame (K. Niemietz)

Lorenzo Frascino, M. Sc.

E-Mail: l.frascino(at)itv.rwth-aachen.de

Adresse:
            Institut für Technische Verbrennung
            RWTH Aachen University
              Templergraben 64
              52056 Aachen

Telefon: +49 (0)241 80-91809
Telefax: +49 (0)241 80-94622

Büro: 209.1 (2. Etage)

Arbeitsgebiete

Forschung: High-fidelity-Simulation der Verbrennung von erneuerbaren synthetischen Brennstoffen (RSF Combustion) mittels DNS.

Publikationen

2023

~ Lorenzo Giuntini, Lorenzo Frascino, Giovanni Battista Ariemma, Chiara Galletti, Giancarlo Sorrentino and Raffaele Ragucci. Modeling of Ammonia MILD Combustion in Systems with Internal Recirculation.Combustion Science and Tecnology, July 2023.

~ Lorenzo Giuntini, Lorenzo Frascino, Giovanni Battista Ariemma, Chiara Galletti, Giancarlo Sorrentino and Raffaele Ragucci. Performance Assessment of Modeling Approaches for Moderate or Intense Low-Oxygen Dilution Combustion in a Scale-Bridging Burner.Energy & Fuels, June 2023