Muhammad Imran Rashid
Department of Chemical, Polymer and Composite Materials Engineering, University of Engineering and Technology, Lahore (New Campus), 39021, Pakistan
Discipline of Chemical Engineering, University of Newcastle, NSW 2308, Australia
[1] M.I. Rashid, N. Ramzan. Fluid Mechanics and Heat-Transfer Operations Combination Involved in Urea Unit of Fertilizer Complex, Non-Metallic Material Science 1(1) (2019) 5-10.
[2] C. Julcour, F. Bourgeois, B. Bonfils, I. Benhamed, F. Guyot, F. Bodénan, C. Petiot, É. Gaucher, Development of an attrition-leaching hybrid process for direct aqueous mineral carbonation, Chemical Engineering Journal 262 (2015) 716-726.
[3] M.I. Rashid, E. Benhelal, F. Farhang, T.K. Oliver, M.S. Rayson, G.F. Brent, M. Stockenhuber, E.M. Kennedy, Development of Concurrent grinding for application in aqueous mineral carbonation, Journal of Cleaner Production 212 (2019) 151-161.
[4] M.I. Rashid, E. Benhelal, F. Farhang, T.K. Oliver, M. Stockenhuber, E.M. Kennedy, Application of a concurrent grinding technique for two-stage aqueous mineral carbonation, Journal of CO2 Utilization 42 (2020) 101347.
[5] E. Benhelal, M.I. Rashid, M.S. Rayson, T.K. Oliver, G. Brent, M. Stockenhuber, E.M. Kennedy, “ACEME”: Synthesis and characterization of reactive silica residues from two stage mineral carbonation Process, Environmental Progress & Sustainable Energy 38(3) (2019) e13066.
[6] Emad Benhelal, J. Hook, Guangyu Zhao, Muhammad Imran Rashid, Tim Oliver, Mark Rayson, Geoff Brent, Michael Stockenhuber, Eric Kennedy, Insights into chemical stability of Mg-silicates and silica in aqueous systems using 25Mg and 29Si solid-state MAS NMR spectroscopy: Applications for CO2 capture and utilisation, Chemical Engineering Journal (2020).
[7] E. Aghaalipour, A. Akbulut, G. Güllü, Carbon dioxide capture with microalgae species in continuous gas-supplied closed cultivation systems, Biochemical Engineering Journal 163 (2020) 107741.
[8] D. Tang, W. Han, P. Li, X. Miao, J. Zhong, CO2 biofixation and fatty acid composition of Scenedesmus obliquus and Chlorella pyrenoidosa in response to different CO2 levels, Bioresource Technology 102(3) (2011) 3071-3076.
[9] A. Jafari, F. Esmaeilzadeh, D. Mowla, E. Sadatshojaei, S. Heidari, D.A. Wood, New insights to direct conversion of wet microalgae impregnated with ethanol to biodiesel exploiting extraction with supercritical carbon dioxide, Fuel 285 (2021) 119199.
[10] E. Alper, O. Yuksel Orhan, CO2 utilization: Developments in conversion processes, Petroleum 3(1) (2017) 109-126.
[11] K. Achakzai, S. Khalid, M. Adrees, A. Bibi, S. Ali, R. Nawaz, M. Rizwan, Air pollution tolerance index of plants around brick kilns in Rawalpindi, Pakistan, Journal of Environmental Management 190 (2017) 252-258.
[12] A. Sattari, A. Ramazani, H. Aghahosseini, M.K. Aroua, The application of polymer containing materials in CO2 capturing via absorption and adsorption methods, Journal of CO2 Utilization 48 (2021) 101526.
[13] H. M. Safaa, A.S. Hameed, E. Yousif, M. H. Alotaibi,, M.H. Alotaibi, D.S. Ahmed, G.A. El-Hiti, New Porous Silicon-Containing Organic Polymers: Synthesis and Carbon Dioxide Uptake, Processes 8 (2020).
[14] Ni, Z. L. Liang, Yi, Z., R. Guo, C. Liu, Y. Liu, H. Sun, X. Liu, Research progress of electrochemical CO2 reduction for copper-based catalysts to multicarbon products, Coordination Chemistry Reviews 441 (2021) 213983.
[15] C. Xu, X. Zhang, M.-N. Zhu, L. Zhang, P.-F. Sui, R. Feng, Y. Zhang, J.-L. Luo, Accelerating photoelectric CO2 conversion with a photothermal wavelength-dependent plasmonic local field, Applied Catalysis B: Environmental 298 (2021) 120533.
