• 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

"Combustion is responsible for 80% of our current energy supply and will remain to be extremely important in future due to its extremely high power-density. However, the fuels will shift more and more from fossils to sustainable fuels like biofuels, solar fuels and metal fuels. To understand the underlying physical and chemical processes and to control them in such a way that the processes are ultra-clean and highly efficient is highly motivating".

Over de organisatie

The expertise in this group includes combustion science, technology and innovation, energy, thermo-fluids and heat transport technology. Group de Goey is active and well-known for numerical and experimental research in the field of laminar flames, turbulent flames, engines, gas turbines, flame thermo-acoustics, etc. The two most important achievements are the invention of:

1. The Heat Flux Method, one of the most accurate methods known for measuring adiabatic burning velocities and used by at least 12 other groups in the world, which will be extended to metal fuels within the current project.
2. The FGM method, a very efficient and accurate combustion modeling technique, also well recognized in the combustion community worldwide and also used by more than 30 groups/industries over the world.

Vingerafdruk Verdiep u in de onderzoeksgebieden waarop de Goey actief is. Deze onderwerplabels komen uit het werk van de leden van deze organisatie. Samen vormen ze een unieke vingerafdruk.

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

    Onderzoeksoutput

    Optimization of combustion in micro combined heat and power (mCHP) system with the biomass-Stirling engine using SiO2 and Al2O3 nanofluids

    Najafi, G., Hoseini, S. S., de Goey, L. P. H. P. & Talal Yusaf, 25 mrt 2020, In : Applied Thermal Engineering. 169, 9 blz., 114936.

    Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

    Open Access
  • QFM: quenching flamelet-generated manifold for modelling of flame–wall interactions

    Efimov, D. V., de Goey, P. & van Oijen, J. A., 2 jan 2020, In : Combustion Theory and Modelling. 24, 1, blz. 72-104 33 blz.

    Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

    Open Access
    Bestand
  • 3 Downloads (Pure)

    The effect of thermal diffusion on stabilization of premixed flames

    Vance, F., de Goey, P. & van Oijen, J. A., jun 2020, In : Combustion and Flame. 216, blz. 45-57 13 blz.

    Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

  • Activiteiten

    • 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