Staff IVG List

Dr.-Ing. Niklas Jüngst

EMPI - Institut für Energie- und Materialprozesse - RF

Address
Lotharstraße 1
47057 Duisburg
Room
ME 027
Phone
+49 (0)203 379 1804
Fax
+49 (0)203 379 2117
E-Mail
niklas.juengst@uni-due.de

Functions

  • Wiss. Mitarbeiterinnen/Mitarbeiter, Reaktive Fluide

Current lectures

No current lectures.

Past lectures (max. 10)

No past lectures.

The following publications are listed in the online university bibliography of the University of Duisburg-Essen. Further information may also be found on the person's personal web pages.

    Journal articles

  • Jüngst, Niklas; Südholt, Benjamin; Smallwood, Gregory J.; Schulz, Christof; Kaiser, Sebastian A.
    Laser-induced emission from iron oxide nanoparticles in spray-flame synthesis : In situ high-speed microscopy
    In: Applied Physics B: Lasers and Optics Vol. 130 (2024) Nr. 4, 63
    Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Ersoy, Veysel; Smallwood, Gregory J.; Kaiser, Sebastian
    Neural networks for classification and segmentation of thermally-induced droplet breakup in spray-flame synthesis
    In: Journal of Aerosol Science Vol. 176 (2024) 106314
    Online Full Text: dx.doi.org/ (Open Access)
  • Shway, Kamal; Jüngst, Niklas; Bardi, Michele; Bruneaux, Gilles; Kaiser, Sebastian
    A multispectral UV-vis absorption technique for quantitative high-speed field-sequential imaging of fuel films and soot in combustion
    In: Proceedings of the Combustion Institute Vol. 39 (2023) Nr. 1, pp. 1475 - 1483
    Online Full Text: dx.doi.org/
  • Skenderovic, Ivan; Jüngst, Niklas; Kaiser, Sebastian; Kruis, Frank Einar
    A population balance method for simulation of particle-induced droplet breakup in spray flame synthesis and suspension spray combustion
    In: Applications in Energy and Combustion Science Vol. 15 (2023) 100162
    Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Skenderovic, Ivan; Südholt, Benjamin; Smallwood, G.J.; Kruis, Frank Einar; Kaiser, Sebastian
    High-speed imaging and statistics of puffing and micro-exploding droplets in spray-flame synthesis
    In: Applications in Energy and Combustion Science Vol. 15 (2023) 100167
    Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Smallwood, G. J.; Kaiser, Sebastian
    Correction to: Visualization and image analysis of droplet puffing and micro-explosion in spray-flame synthesis of iron oxide nanoparticles
    In: Experiments in Fluids Vol. 63 (2022) Nr. 6, 103
    Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Frapolli, N.; Wright, Y.M.; Boulouchos, K.; Kaiser, Sebastian
    Erratum to “Experimental and numerical investigation of evaporating fuel films in combustion”
    In: Applications in Energy and Combustion Science Vol. 10 (2022) 100066
    Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Smallwood, Gregory J.; Kaiser, Sebastian
    Visualization and image analysis of droplet puffing and micro-explosion in spray-flame synthesis of iron oxide nanoparticles
    In: Experiments in Fluids Vol. 63 (2022) Nr. 3, 60
    Online Full Text: dx.doi.org/ (Open Access)
  • Shahbaz, Muhammad Ali; Jüngst, Niklas; Grzeszik, Roman; Kaiser, Sebastian;
    Endoscopic fuel film, chemiluminescence, and soot incandescence imaging in a direct-injection spark-ignition engine
    38th International Symposium on Combustion ; 24 - 29 January 2021, Adelaide, Australia,
    In: Proceedings of the Combustion Institute Vol. 38 (2021) Nr. 4, pp. 5869 - 5877
    Online Full Text: dx.doi.org/
  • Jüngst, Niklas; Frapolli, N.; Wright, Y.M.; Boulouchos, K.; Kaiser, Sebastian
    Experimental and numerical investigation of evaporating fuel films in combustion
    In: Applications in Energy and Combustion Science Vol. 7 (2021) 100033
    Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Kaiser, Sebastian
    Visualization of soot formation from evaporating fuel films by laser-induced fluorescence and incandescence
    In: Proceedings of the Combustion Institute Vol. 38 (2021) Nr. 1, pp. 1089 - 1097
    Online Full Text: dx.doi.org/; Online Full Text: dx.doi.org/ (Open Access)
  • Jüngst, Niklas; Kaiser, Sebastian;
    Imaging of fuel-film evaporation and combustion in a direct-injection model experiment
    SAE World Congress Experience, WCX 2019, 9-11 April 2019, Detroit, United States,
    In: SAE Technical Papers (2019) 2019-01-0293
    Online Full Text: dx.doi.org/ Online Full Text (Open Access)
  • Jüngst, Niklas; Williamson, Andrew P.; Kiefer, Johannes
    Numerical model for predicting experimental effects in enantioselective Raman spectroscopy
    In: Applied Physics B: Lasers and Optics Vol. 123 (2017) Nr. 4,
    Online Full Text: dx.doi.org/

    • Thesis

  • Jüngst, Niklas;
    Optical diagnostics for soot formation from evaporating fuel films in combustion
    Duisburg, Essen (2021) XVII, 144 Seiten
    Online Full Text: dx.doi.org/ Online Full Text (Open Access)

    • Lectures

  • Jüngst, Niklas; Kaiser, Sebastian;
    Visualization of soot formation from evaporating fuel films by laser-induced fluorescence and incandescenceualization of soot formation from evaporating fuel films by laser-induced fluorescence and incandescence
    29. Deutscher Flammentag, 17.-18.09.2019, Bochum,
    (2019)
    Online Full Text: dx.doi.org/ (Open Access)