Student projects

Open projects

  1. Evaluation of spray evaporation in a swirl burner
  2. Characterization of velocity distribution of high-velocity atomization using non-dimensional numbers
  3. Comparison of the evaporation of various fuels in a swirl burner
  4. Evaluation of natural gas combustion by high-speed Schlieren technique
  5. Evaluation of various flame shapes by high-speed Schlieren technique
  6. Spectral analysis of a turbulent flame based on Schlieren imaging technique

Detailed descriptions are available here.

Past projects

Determination of air velocity in airblast spray

Erika Rácz

Scientific Conference of Students paper, Section: Sustainable Energy, 2020, Supervisor: Viktor Józsa

Optical investigation of combustion flames

Marcell Pitlik

Scientific Conference of Students paper, Section: Optomechatronics, 2020, Supervisor: Balázs Vince Nagy, Viktor Józsa

Modeling of the effect of swirl vanes on the combustion characteristics of a lean premixed burner

Dániel Füzesi

MSc Thesis, 2019, Supervisor: Viktor Józsa

CFD analysis of a 30 kW swirl burner (in Hungarian, 30 kW-os perdületes gázégő numerikus áramlástani vizsgálata)

Angelika Fuchs

BSc Thesis, 2019, Supervisor: Viktor Józsa

Investigation of the effect of swirler design on combustion (in Hungarian, Perdítőelem kialakítások égésre gyakorolt hatásának elemzése)

Dániel Füzesi

Scientific Conference of Students paper, Section: Modeling of Energy Systems, 2018, Supervisor: Viktor Józsa

Acoustical analysis of combustion noise of a swirl burner with various diffusers (in Hungarian, Perdületes égő égési zajának akusztikai elemzése különböző diffúzorok alkalmazása mellett)

Gergely I. Novotni

MSc Thesis, 2018, Supervisor: Viktor Józsa

Determination of air-to-fuel equivalence ration of a swirl burner by flame emission spectrometry (in Hungarian, Perdületes égő légfelesleg-tényezőjének meghatározása lángemissziós spektrometria segítségével)

Gyöngyvér Hidegh

MSc Thesis, 2018, Supervisor: Viktor Józsa

Statistical analysis of fuel droplet evaporation (in Hungarian, Tüzelőanyagcseppek párolgásának statisztikus vizsgálata)

Dávid Csemány

MSc Thesis, 2018, Supervisor: Viktor Józsa

Developing a premixing swirl burner by CFD for a laboratory test rig (in Hungarian, Perdületes előkeveréses égő fejlesztése CFD segítségével laboratóriumi tesztberendezéshez)

Valentin Varga

MSc Thesis, 2018, Supervisor: Viktor Józsa

Flame emission spectroscopy diagnostics of a premixed burner (in Hungarian, Előkeveréses égő lángemissziós spektrometriai diagnosztikája)

Gyöngyvér Hidegh

Scientific Conference of Students paper, Section: Modeling of Energy Systems, 2017, Supervisor: Viktor Józsa

Acoustic analysis of the characteristics of a swirling diesel oil flame (in Hungarian, Perdületes dízelolaj láng akusztikai karakterisztikájának vizsgálata)

Gergely I. Novotni

Scientific Conference of Students paper, Section: Modeling of Energy Systems, 2017, Supervisor: Viktor Józsa

CFD analysis of a lean premixed burner (in Hungarian, Perdületes előkeveréses égő vizsgálata CFD segítségével)

Valentin Varga

Scientific Conference of Students paper, Section: Modeling of Energy Systems, 2017, Supervisor: Viktor Józsa