Adelaide Research & Scholarship: Search

Search

Results 1-10 of 15 (Search time: 0.002 seconds).

previous
1
2
next

Item hits:

Preview	Issue Date	Title	Author(s)
	2017	Particle temperature measurements in a flow using laser-induced phosphorescence	Kueh, K.; Lau, T.; Nathan, G.; Alwahabi, Z.; World Congress on Mechanical, Chemical, and Material Engineering (MCM) (8 Jun 2017 - 10 Jun 2017 : Rome, Italy)
	2017	Techno-economic evaluation of modular hybrid concentrating solar power systems	Lim, J.; Dally, B.; Chinnici, A.; Nathan, G.
	2017	Experimental and numerical investigation of the iso-thermal flow characteristics within a cylindrical chamber with multiple planar-symmetric impinging jets	Long, S.; Lau, T.; Chinnici, A.; Tian, Z.; Dally, B.; Nathan, G.
	2017	An investigation into the effect of aspect ratio on the heat loss from a solar cavity receiver	Lee, K.; Jafarian, M.; Ghanadi, F.; Arjomandi, M.; Nathan, G.
	2017	Research challenges in combustion and gasification arising from emerging technologies employing directly irradiated concentrating solar thermal radiation	Nathan, G.; Dally, B.; Alwahabi, Z.; van Eyk, P.; Jafarian, M.; Ashman, P.
	2017	Experimental and numerical investigation of the flow characteristics within a Solar Expanding-Vortex Particle Receiver-Reactor	Chinnici, A.; Xue, Y.; Lau, T.; Arjomandi, M.; Nathan, G.
	2017	Simultaneous measurements of gas temperature, soot volume fraction and primary particle diameter in a sooting lifted turbulent ethylene/air non-premixed flame	Gu, D.; Sun, Z.; Dally, B.; Medwell, P.; Alwahabi, Z.; Nathan, G.
	2017	Potential use of liquid metal oxides for chemical looping gasification: a thermodynamic assessment	Sarafraz, M.; Jafarian, M.; Arjomandi, M.; Nathan, G.
	2017	Thermodynamic potential of high temperature chemical looping combustion with molten iron oxide as the oxygen carrier	Jafarian, S.; Arjomandi, M.; Nathan, G.
	2017	Comparison of system performance in a hybrid solar receiver combustor operating with MILD and conventional combustion. Part II: Effect of the combustion mode	Chinnici, A.; Tian, Z.; Lim, J.; Nathan, G.; Dally, B.