个人简介
Employment
2013-2014
Research Fellow. School of Engineering (Chemical Engineering), Institute for Materials and Processes, The University of Edinburgh (United Kingdom).
EPSRC Project: Feasibility of a wetting layer absorption carbon capture process based on chemical solvents (EP/J019720/1).
2011-2012
Research Associate, INCAR-CSIC (Spain)
Researcher at the “Energy Processes and Emission Reduction Group”, Department of Coal, Energy and Environment, at the National Institute of Coal, Spanish Council for Scientific Research (INCAR-CSIC).
2007-2011
Pre-doctoral Fellow, INCAR-CSIC (Spain)
Funded by the highly competitive Spanish Research Funding Body studentship ‘JAE-Pre’ pre-doctoral Grant. PhD topic: CO2 Capture “Energy Processes and Emission Reduction Group”, Department of Coal, Energy and Environment. National Institute of Coal, Spanish Council for Scientific Research (INCAR-CSIC).
Qualifications
2007-2011
PhD (2011): “Microporous adsorbents from organic polymers. Application in precombustion CO2 capture processes”. Summa Cum Laude. Department of Energy, University of Oviedo (Spain).
2007-2009
MSc (2009): Master on Research in Technology, Diversification, Quality and Energy Saving (Quality Mention). Title: “Development of adsorbents from phenolic resins for precombustion CO2 capture” (June 2009). Distintion Department of Energy, University of Oviedo (Spain).
2000-2005
研究领域
My research interests are focused on the following topics:
Materials and gas separation processes by means of adsorption for carbon capture. It includes the following:
- Synthesis of advanced and novel materials for post and pre-combustion CO2 capture, such as organic polymers, carbon-based adsorbents, low-cost biomass-based adsorbents, amine impregnated silicon-based adsorbents, polymeric and hybrid membranes, etc.
-Characterization of the adsorbents: textural and chemical characterisation, thermogravimetric analysis, scanning electron microscopy (SEM), FTIR spectroscopy, etc.
- Enhancement of the CO2 recovery on carbon capture processes by means of novel and energetically more efficient technologies for the regeneration. It involves the experimental study in a bench-scale fixed adsorption column.
-Design and construction of lab-scale set-ups for continuous dynamic carbon capture measurements.
Recycling of polymeric waste: catalytic pyrolysis of polymeric waste for the conversion into intermediate added-value chemicals and/or potential new fuels.
Biofuel production
Enviromental Impact Assessment (EIA) of the oil and gas activities in the North Sea
近期论文
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McGurk, SJ., Martin, CF., Brandani, S., Sweatman, MB. & Fan, X. 'Microwave swing regeneration of aqueous monoethanolamine for post-combustion CO2 capture'. Applied Energy, vol 192, pp. 126-133. DOI: [ONLINE] DOI: 10.1016/J.APENERGY.2017.02.012 [ONLINE] AURA: MICROWAVE_SWING_REGENERATION_OF_AQUEOUS_MONOETHANOLAMINE_FOR...
Martin, CF., Sweatman, MB., Brandani, S. & Fan, X. (2016). 'Wet impregnation of a commercial low cost silica using DETA for a fast post-combustion CO2 capture process'. Applied Energy, vol 183, pp. 1705-1721. DOI: [ONLINE] DOI: 10.1016/J.APENERGY.2016.09.081 [ONLINE] AURA: 1_S2.0_S0306261916313836_MAIN.PDF
Hafeez, S., Fan, X., Hussain, A. & Martin, CF. (2015). 'CO2 adsorption using TiO2 composite polymeric membranes: A kinetic study'. Journal of Environmental Sciences, vol 35, pp. 163-171. DOI: [ONLINE] DOI: 10.1016/J.JES.2015.04.019
Fernandez Martin, C. (2013). 'Dynamic cyclic performance of phenol-formaldehyde resin derived carbons for pre-combustion CO2 capture: An experimental study'. Energy Procedia, vol 37, GHGT-11, pp. 127-133. DOI: [ONLINE] DOI: 10.1016/J.EGYPRO.2013.05.093 [LINK] HTTP://WWW.SCIENCEDIRECT.COM/SCIENCE/ARTICLE/PII/S1876610213001033
Martin, CF., Garcia, S., Beneroso, D., Pis, JJ., Rubiera, F. & Pevida, C. (2012). 'Precombustion CO2 capture by means of phenol–formaldehyde resin-derived carbons: from equilibrium to dynamic conditions'. Separation and Purification Technology, vol 98, pp. 531-538. DOI: [ONLINE] DOI: 10.1016/J.SEPPUR.2012.03.017
Garcia, S., Gil, MV., Martin, CF., Pis, JJ., Rubiera, F. & Pevida, C. (2011). 'Breakthrough adsorption study of a commercial activated carbon for pre-combustion CO2 capture'. Chemical Engineering Journal, vol 171, no. 2, pp. 549-556. DOI: [ONLINE] DOI: 10.1016/J.CEJ.2011.04.027
Martin, CF., Plaza, MG., Garcia, S., Pis, JJ., Rubiera, F. & Pevida, C. (2011). 'Microporous phenol-formaldehyde resin-based adsorbents for pre-combustion CO2 capture'. Fuel, vol 90, no. 5, pp. 2064-2072. DOI: [ONLINE] DOI: 10.1016/J.FUEL.2011.01.019
Martin, CF., Stockel, E., Clowes, R., Adams, DJ., Cooper, AI., Pis, JJ., Rubiera, F. & Pevida, C. (2011). 'Hypercrosslinked organic polymer networks as potential adsorbents for pre-combustion CO2 capture'. Journal of Materials Chemistry, vol 21, no. 14, pp. 5475-5483. DOI: [ONLINE] DOI: 10.1039/C0JM03534C
Martin, CF., Garcia, S., Pis, JJ., Rubiera, F. & Pevida, C. (2011). 'Doped phenol-formaldehyde resins as precursors for precombustion CO2 capture adsorbents'. Energy Procedia, vol 4, pp. 1222-1227. DOI: [ONLINE] DOI: 10.1016/J.EGYPRO.2011.01.177 [ONLINE] AURA: DOPED_PHENOL.PDF
Martin, CF., Plaza, MG., Pis, JJ., Rubiera, F., Pevida, C. & Centeno, TA. (2010). 'On the limits of CO2 capture capacity of carbons'. Separation and Purification Technology, vol 74, no. 2, pp. 225-229. DOI: [ONLINE] DOI: 10.1016/J.SEPPUR.2010.06.009