Ventilation Air Methane Abatement Safety Project
Research Outcomes & Publications
Published papers
2017
- The effects of coal dust concentrations and particle sizes on the minimum auto‐ignition temperature of a coal dust cloud
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2017. - Influences of the Initial Ignition Energy on Methane Explosion in a Flame Deflagration Tube
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2017. - The flame deflagration of hybrid methane coal dusts in a large-scale detonation tube
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2017.
2016
- Experimental investigation of the minimum auto-ignition temperature of the coal dust layer in a hot and humid environment
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2016. - A review on understanding explosions from methane-air mixture
Sazal Kundu, Jafar Zanganeh, Behdad Moghtaderi, 2016. - Methane coal dust hybrid fuel explosion properties in a large scale cylindrical explosion chamber
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2016.
2015
- Deflagration of premixed methane–air in a large scale detonation tube
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2015. - Effects of Ignition Energy on Fire and Explosion Characteristics of Dilute Hybrid Fuel in Ventilation Air Methane
Mohammed J.Ajrash, Jafar Zanganeh, Behdad Moghtaderi, 2015.
The University of Newcastle acknowledges the traditional custodians of the lands within our footprint areas: Awabakal, Darkinjung, Biripai, Worimi, Wonnarua, and Eora Nations. We also pay respect to the wisdom of our Elders past and present.