Dr

Mark McConnachie

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Availability

Dr Mark McConnachie is:
Available for supervision

Qualifications

  • Doctor of Philosophy, The University of Queensland

Search Professor Mark McConnachie’s works on UQ eSpace

6 works between 2023 and 2025
All (6) Journal Article (5) Other Outputs (1)

1 - 6 of 6 works

2025

Other Outputs

Investigation and demonstration at laboratory scale, novel processes to produce near-zero carbon oxide emissions hydrogen and fuels from methane through pyrolysis

McConnachie, Mark (2025). Investigation and demonstration at laboratory scale, novel processes to produce near-zero carbon oxide emissions hydrogen and fuels from methane through pyrolysis. PhD Thesis, School of Chemical Engineering, The University of Queensland. doi: 10.14264/3b79f52

Investigation and demonstration at laboratory scale, novel processes to produce near-zero carbon oxide emissions hydrogen and fuels from methane through pyrolysis

2024

Journal Article

Incorporation of composite metal-PVP derived carbon membranes for the percrystallisation of salt water

Abd Jalil, Siti Nurehan, Chen, Yongqi, McConnachie, Mark, Vaughan, James and Motuzas, Julius (2024). Incorporation of composite metal-PVP derived carbon membranes for the percrystallisation of salt water. Desalination, 591 117878, 117878. doi: 10.1016/j.desal.2024.117878

Incorporation of composite metal-PVP derived carbon membranes for the percrystallisation of salt water

2024

Journal Article

Methane pyrolysis in molten salt slurry systems: evaluation of activity and mechanism in binary salt mixtures with molybdenum disulfide suspensions

McConnachie, Mark, Yan, Penghui, Konarova, Muxina and Smart, Simon (2024). Methane pyrolysis in molten salt slurry systems: evaluation of activity and mechanism in binary salt mixtures with molybdenum disulfide suspensions. International Journal of Hydrogen Energy, 81, 1172-1180. doi: 10.1016/j.ijhydene.2024.07.225

Methane pyrolysis in molten salt slurry systems: evaluation of activity and mechanism in binary salt mixtures with molybdenum disulfide suspensions

2024

Journal Article

“Selectivity and reaction kinetics of methane pyrolysis to produce hydrogen in catalytically active molten salts”

Sheil, Alister, Konarova, Muxina, McConnachie, Mark and Smart, Simon (2024). “Selectivity and reaction kinetics of methane pyrolysis to produce hydrogen in catalytically active molten salts”. Applied Energy, 364 123137. doi: 10.1016/j.apenergy.2024.123137

“Selectivity and reaction kinetics of methane pyrolysis to produce hydrogen in catalytically active molten salts”

2024

Journal Article

Evaluation of heterogeneous metal-sulfide molten salt slurry systems for hydrogen production through methane pyrolysis

McConnachie, Mark, Sheil, Alister, Konarova, Muxina and Smart, Simon (2024). Evaluation of heterogeneous metal-sulfide molten salt slurry systems for hydrogen production through methane pyrolysis. International Journal of Hydrogen Energy, 49 (Part A), 981-991. doi: 10.1016/j.ijhydene.2023.08.072

Evaluation of heterogeneous metal-sulfide molten salt slurry systems for hydrogen production through methane pyrolysis

2023

Journal Article

Literature review of the catalytic pyrolysis of methane for hydrogen and carbon production

McConnachie, Mark, Konarova, Muxina and Smart, Simon (2023). Literature review of the catalytic pyrolysis of methane for hydrogen and carbon production. International Journal of Hydrogen Energy, 48 (66), 25660-25682. doi: 10.1016/j.ijhydene.2023.03.123

Literature review of the catalytic pyrolysis of methane for hydrogen and carbon production

Availability

Dr Mark McConnachie is:
Available for supervision

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