Publications by Tara Lee Congo
Peer reviewed
Articles
[1]
Lomas, H., Rish, S. K., Congo, T., Steel, K., Jayasekara, A. & Tahmasebi, A. (2026). Factors Underpinning the Gasification Reactivity of Coke RMDC and IMDC with CO2. ISIJ International, 66(1), 36-48.
[2]
Wang, A., Jenkins, D. R., Tahmasebi, A., Steel, K., Congo, T. & Gols, B. (2025). A Novel Micro-CT Technique for Characterising Structural Interfaces in Metallurgical Coke. ISIJ International, 65(8), 1089-1099.
[3]
Somasundaram, S., Congo, T. & Steel, K. M. (2025). Biocoke : Carrying capacity of coking coals for sugarcane bagasse char in terms of viscoelastic behaviour during co-carbonization. Fuel, 393.
[4]
Drobniak, A., Mastalerz, M., Jelonek, Z., Jelonek, I., Acda, M., Adsul, T. ... Ziemianin, K. (2025). Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy : Interlaboratory Study 2. International Journal of Coal Geology, 307.
[5]
Drobniak, A., Congo, T., Ziemianin, K. & et al., (2025). Component identification of solid biomass fuels using reflected light microscopy: Interlaboratory study 2. International Journal of Coal Geology, 307.
[6]
Drobniak, A., Mastalerz, M., Knauth, W., Adarkani, O., Dos Santos, T., De Faria, V. ... Sanei, H. (2024). Atlas of Microscopic Images of Biochar : Using Reflected Light Microscopy in Biochar Characterization. Indiana Journal of Earth Sciences, 6.
[7]
Somasundaram, S., Congo, T. & Steel, K. M. (2024). High temperature viscoelastic behaviour of sugarcane bagasse char and coal blends : Role of oxygen and porosity of char on fluidity reduction. Fuel, 362.
[8]
Congo, T., Rodrigues, S., Esterle, J., Steel, K. & Maranha, S. (2023). Before and after : A visual glimpse into the coking behaviour of coal macerals. Fuel, 343.
[9]
Drobniak, A., Mastalerz, M., Jelonek, Z., Jelonek, I., Adsul, T., Andolšek, N. M. ... Ziemianin, K. (2023). Interlaboratory study : Testing reproducibility of solid biofuels component identification using reflected light microscopy. International Journal of Coal Geology, 277.
[10]
Gao, S., Congo, T., Jing, Z., Aziz, S., Balucan, R., Zhu, Z. ... Steel, K. M. (2023). Oxidative effects of gaseous oxygen and ozone on Australian subbituminous and bituminous coals and the implications for coal seam permeability enhancement. Gas Science and Engineering, 118.
[11]
Aziz, H., Congo, T. L. & Steel, K. M. (2021). Understanding the multiple interactions of inertinite during pyrolysis/carbonisation with vitrinite : A study of two Australian coals of different rank. Fuel processing technology, 217.
[12]
Radliski, A. P., Busbridge, T., Gray, E. MacA., Blach, T. P., Cheng, G., Melnichenko, Y. B. ... Esterle, J. (2009). Dynamic Micromapping of CO2 Sorption in Coal. Langmuir, 25(4), 2385-2389.
[13]
Radlinski, A. P., Busbridge, T., Gray, E. M. A., Blach, T. P. & Cookson, D. J. (2009). Small angle X-ray scattering mapping and kinetics study of sub-critical CO2 sorption by two Australian coals. International Journal of Coal Geology, 77(1), 80-89.
Non-peer reviewed
Theses
[14]
Congo, T. L. (2014). Adsorption of CO2 by Coal and Activated Carbon : A Study Using In-situ Small-Angle X-ray Scattering and Sorption Manometry (Doctoral thesis , Griffith University). Retrieved from https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-378484.
Reports
[15]
Steel, K. (2025). Tracking the carbonisation performance of vitrinite macerals. Australian Coal Association Research Program (ACARP).
[16]
Esterle, J. (2024). Australian Coal Petrographic Atlas: Maintaining the Knowledge. Australian Coal Association Research Program (ACARP).
[17]
Steel, K. (2022). Influence of inertinite and volatile release characteristics on viscosity development and fusibility during coking. Australian Coal Association Research Program (ACARP).
Other
[18]
Busbridge, T. (2006). Hydrogen modification of MgB2 superconductor : Honours Thesis - Griffith University. Griffith University.
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