Grunde Jomaas
Grunde Jomaas
Professor and BRE Chair of Fire Safety Engineering
Verified email at - Homepage
Cited by
Cited by
High-pressure laminar flame speeds and kinetic modeling of carbon monoxide/hydrogen combustion
H Sun, SI Yang, G Jomaas, CK Law
Proceedings of the Combustion Institute 31 (1), 439-446, 2007
Cellular instabilities of expanding hydrogen/propane spherical flames at elevated pressures: theory and experiment
CK Law, G Jomaas, JK Bechtold
Proceedings of the Combustion Institute 30 (1), 159-167, 2005
Experimental determination of counterflow ignition temperatures and laminar flame speeds of C2–C3 hydrocarbons at atmospheric and elevated pressures
G Jomaas, XL Zheng, DL Zhu, CK Law
Proceedings of the Combustion Institute 30 (1), 193-200, 2005
On transition to cellularity in expanding spherical flames
G Jomaas, CK Law, JK Bechtold
Journal of fluid mechanics 583, 1, 2007
Critical radius for sustained propagation of spark-ignited spherical flames
AP Kelley, G Jomaas, CK Law
Combustion and Flame 156 (5), 1006-1013, 2009
An experimental investigation on self-acceleration of cellular spherical flames
F Wu, G Jomaas, CK Law
Proceedings of the Combustion Institute 34 (1), 937-945, 2013
Experimental study on the burning behavior of pool fires in rooms with different wall linings
A Poulsen, G Jomaas
Fire Technology 48 (2), 419-439, 2012
Describing function analysis of limit cycles in a multiple flame combustor
F Boudy, D Durox, T Schuller, G Jomaas, S Candel
Journal of Engineering for Gas Turbines and Power 133 (6), 2011
Fire safety in space–beyond flammability testing of small samples
G Jomaas, JL Torero, C Eigenbrod, J Niehaus, SL Olson, PV Ferkul, ...
Acta Astronautica 109, 208-216, 2015
The need for hierarchies of acceptance criteria for probabilistic risk assessments in fire engineering
R Van Coile, D Hopkin, D Lange, G Jomaas, L Bisby
Fire technology 55 (4), 1111-1146, 2019
Vaporization order and burning efficiency of crude oils during in-situ burning on water
L van Gelderen, LMV Malmquist, G Jomaas
Fuel 191, 528-537, 2017
Experimental study of the performance of intumescent coatings exposed to standard and non-standard fire conditions
A Lucherini, L Giuliani, G Jomaas
Fire Safety Journal 95, 42-50, 2018
Importance of the slick thickness for effective in-situ burning of crude oil
L van Gelderen, NL Brogaard, MX Sørensen, J Fritt-Rasmussen, ...
Fire Safety Journal 78, 1-9, 2015
Flame spread: effects of microgravity and scale
DL Urban, P Ferkul, S Olson, GA Ruff, J Easton, S James, YTT Liao, C Li, ...
Combustion and Flame 199, 168-182, 2019
Fire Safety in Space–Investigating flame spread interaction over wires
JM Citerne, H Dutilleul, K Kizawa, M Nagachi, O Fujita, M Kikuchi, ...
Acta Astronautica 126, 500-509, 2016
Spiral waves in expanding hydrogen–air flames: Experiment and theory
G Jomaas, JK Bechtold, CK Law
Proceedings of the Combustion Institute 31 (1), 1039-1046, 2007
Reducing the computational requirements for simulating tunnel fires by combining multiscale modelling and multiple processor calculation
I Vermesi, G Rein, F Colella, M Valkvist, G Jomaas
Tunnelling and Underground Space Technology 64, 146-153, 2017
The influence of vehicular obstacles on longitudinal ventilation control in tunnel fires
WUR Alva, G Jomaas, AS Dederichs
Fire Safety Journal 87, 25-36, 2017
Experimental study of the burning behaviors of thin-layer pool fires
J Zhao, H Huang, G Jomaas, M Zhong, R Yang
Combustion and Flame 193, 327-334, 2018
Effects of convective motion in n-octane pool fires in an ice cavity
HF Farahani, G Jomaas, AS Rangwala
Combustion and Flame 162 (12), 4643-4648, 2015
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