Dr Liza Elliott

Dr Elliott is a senior researcher in coal and biomass combustion, carbon utilisation in iron and steelmaking and ash behaviour and utilisation. She has over 26 years’ experience researching combustion and resource utilisation issues.

After completing her bachelor’s degree, Dr Elliott worked for CRA’s Advanced Technology Group at Bundoora considering world trends in PCI coal use, carbon reactivity in HIsmelt reactors, pelletising of bauxite for aluminium production, before becoming a CRA scholar and completing her PhD on slag formation during gasification at The University of Newcastle. Dr Elliott has continue to work at The University of Newcastle since that time.

Material behaviour in processes is important to understand and control. Carbon is a key contributor to Australia’s economic prosperity, whether from the generation of power, or the supplication of energy to other processes, or as a thermal or electrical conductor. Similarly, refractory oxides limit the ability to generate heat during power production but are key in insulating furnaces during the formation of hot metal in metallurgical operations. Dr Elliott’s research at The University of Newcastle aims at developing better understanding of the behaviour of important elements, particularly carbon and refractory oxides during key industrial processes.

She has completed work on coal combustion behaviour in oxy-fuel combustion, identification of key species within coal, density separation techniques for the capture of ash cenospheres, identification of deposition mechanisms in pulverised fuel boilers, developed techniques for the prediction of fouling and slagging in boilers, assessed combustion behaviour of biomass materials and the behaviour of their ash in boilers, determined the mechanism of PM10 and PM2.5 particle formation and completed measurement of PM levels, and analysis of overseas coal character and expected market uptake for the Australian coal industry.

For steelmaking partners Dr Elliott has completed studies on PCI combustibility, developing techniques to assess coals suitability for PCI, developed assessment techniques for blockage potential of PCI coals and considered techniques for EAF dust processing.

Dr Elliott has also studied sintering and agglomeration of ash in fluidised beds, and the identification of rare earth elements in fly ash.

Dr Elliott has significant experience in advanced analysis techniques such as TIMA, SEM, TMA, XRD, char morphology analysis, density measurements and separation techniques.

Utilising her skills in characterising advanced materials, future research directions include development of green steel processes, assessment of carbon black and replacement of carbon derived energy with hydrogen and other green energy sources.