• De Zaale, Gemini South 2.131 (Building 15)

    5612 AJ Eindhoven

    Nederland

  • P.O. Box 513, Department of Mechanical Engineering

    5600 MB Eindhoven

    Nederland

Organisatieprofiel

Introductie / missie

"The energy transition requires the development of clean and efficient conversion devices for alternative carbon-free fuels and energy carriers. Numerical models play a major role in the design process of such devices."

Over de organisatie

Group van Oijen is specialized in theoretical and numerical modelling of combustion.

The expertise is largely in the field of engines and energy converters and is focused on mechanical engineering, chemically reacting flows, modelling combustion and interfacial transport phenomena in engineering flows. The group employs highly fidelity numerical models to unravel the fundamental processes in reacting flows and uses this knowledge to develop computationally efficient models for large-scale simulations of real devices. The leader of this group (Jeroen van Oijen) is the inventor of the well-known Flamelet-Generated Manifold (FGM) method, which enables the use of detailed reaction mechanisms in engineering simulations at affordable computational cost. Group van Oijen aims to develop new models for the design of devices employing new combustion concepts and future sustainable fuels.

Vingerafdruk Duik in de onderzoeksthema's waar van Oijen actief is. Deze onderwerplabels komen voort uit het werk van deze leden van de organisatie. Samen vormen ze een unieke vingerafdruk.

flames Fysica en Astronomie
Fuel burners Engineering en materiaalwetenschappen
Direct numerical simulation Engineering en materiaalwetenschappen
Hydrogen Engineering en materiaalwetenschappen
Heat losses Engineering en materiaalwetenschappen
Biomass Engineering en materiaalwetenschappen
Methane Engineering en materiaalwetenschappen
Pyrolysis Engineering en materiaalwetenschappen

Netwerk Recente externe samenwerking op landenniveau. Duik in de details door op de stippen te klikken.

Onderzoeksoutput 1995 2019

1 Citaat (Scopus)

A novel strategy to accurately represent the carrier gas properties of droplets evaporating in a combustion environment

Sacomano Filho, F. L., Krieger Filho, G. C., van Oijen, J. A., Sadiki, A. & Janicka, J., 1 jul 2019, In : International Journal of Heat and Mass Transfer. 137, blz. 1141-1153 13 blz.

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

thermochemical properties
Gases
simplification
evaporation
mist

Combustion of metal fuel in a low-swirl burner

Krens, J. J. J., Ruis, B. G. J., de Goey, P., van Oijen, J. & Schiemann, M., 2019, (Geaccepteerd/In druk) Combustion of metal fuel in a low-swirl burner.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

Prijzen

NVV combustion award 2019

Thijs Hazenberg (Ontvanger), 10 okt 2019

Prijs: AndersWerk, activiteit of publicatie gerelateerde prijzen (lifetime, best paper, poster etc.)Wetenschappelijk

Activiteiten 2019 2019

  • 1 Aangemelde presentatie

Effect of progress variable definition on mass burning rate in flamelet generated manifolds

Harshit Gupta (Spreker), Jeroen van Oijen (Spreker), Philip de Goey (Spreker)
2019

Activiteit: Types gesprekken of presentatiesAangemelde presentatieWetenschappelijk

Scripties/masterproeven

An Eulerian-Lagrangian approach for simulating heterogeneous combustion of metal fuels.

Auteur: Hazenberg, T., 15 feb 2019

Begeleider: van Oijen, J. A. (Afstudeerdocent 1)

Scriptie/masterproef: Master