Scholarly PublicationItems where Author is "Kyriakou, G."
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Lim, J.Y. and Loy, A.C.M. and Alhazmi, H. and Fui, B.C.L. and Cheah, K.W. and Taylor, M.J. and Kyriakou, G. and Yoo, C.K. (2021) Machine learning�assisted CO2 utilization in the catalytic dry reforming of hydrocarbons: Reaction pathways and multicriteria optimization analyses. International Journal of Energy Research.
Cheah, K.W. and Yusup, S. and Taylor, M.J. and How, B.S. and Osatiashtiani, A. and Nowakowski, D.J. and Bridgwater, A.V. and Skoulou, V. and Kyriakou, G. and Uemura, Y. (2020) Kinetic modelling of hydrogen transfer deoxygenation of a prototypical fatty acid over a bimetallic Pd60Cu40catalyst: An investigation of the surface reaction mechanism and rate limiting step. Reaction Chemistry and Engineering, 5 (9). pp. 1682-1693.
Cheah, K.W. and Taylor, M.J. and Osatiashtiani, A. and Beaumont, S.K. and Nowakowski, D.J. and Yusup, S. and Bridgwater, A.V. and Kyriakou, G. (2020) Monometallic and bimetallic catalysts based on Pd, Cu and Ni for hydrogen transfer deoxygenation of a prototypical fatty acid to diesel range hydrocarbons. Catalysis Today, 355. pp. 882-892.
Cheah, K.W. and Yusup, S. and Kyriakou, G. and Ameen, M. and Taylor, M.J. and Nowakowski, D.J. and Bridgwater, A.V. and Uemura, Y. (2018) In-situ hydrogen generation from 1,2,3,4-tetrahydronaphthalene for catalytic conversion of oleic acid to diesel fuel hydrocarbons: Parametric studies using Response Surface Methodology approach. International Journal of Hydrogen Energy.
Cheah, K.W. and Yusup, S. and Kyriakou, G. and Ameen, M. and Taylor, M.J. and Nowakowski, D.J. and Bridgwater, A.V. and Uemura, Y. (2018) In-situ hydrogen generation from 1,2,3,4-tetrahydronaphthalene for catalytic conversion of oleic acid to diesel fuel hydrocarbons: Parametric studies using Response Surface Methodology approach. International Journal of Hydrogen Energy.