List of publications
Books
1. C.C. Cormos, Chemical Reaction Engineering, Practical applications for homogenous and gas-liquid heterogenous reactors (published in Romanian: Ingineria Reactiilor Chimice, Aplicatii practice pentru studiul reactoarelor omogene si eterogene gaz-lichid), Cluj University Press, 2014.
Articles
1. C.C. Cormos, Hydrogen and power co-generation based on coal and biomass/solid wastes co-gasification with carbon capture and storage, International Journal of Hydrogen Energy, 37, 2012, 5637-5648;
2. A. Padurean, C.C. Cormos, P.S. Agachi, Pre-combustion carbon dioxide capture by gas-liquid absorption for Integrated Gasification Combined Cycle power plants, International Journal of Greenhouse Gas Control, 7, 2012, 1-11;
3. C.C. Cormos, Evaluation of syngas-based chemical looping applications for hydrogen and power co-generation with CCS, International Journal of Hydrogen Energy, 37, 2012, 13371-13386;
4. C.C. Cormos, Integrated assessment of IGCC power generation technology with carbon capture and storage (CCS), Energy, 42, 2012, 434-445;
5. J. Gaspar, A.M. Cormos, Dynamic modeling and absorption capacity assessment of CO2 capture process, International Journal of Greenhouse Gas Control, 8, 2012, 45-55;
6. M. Badaluta, C.C. Cormos, P.S. Agachi, Hydrogen production through co-gasification of coal and biomass with carbon dioxide capture, Studia Universitatis Chemia, 1, 2012, 167-174;
7. C.I. Anghel, A.M. Cormos, Surrogate-based analysis with application to prediction and optimisation problems, Revista de Chimie, 63, 2012, 1278-1285;
8. R. Both, A.M. Cormos, P.S. Agachi, C. Festila, Dynamic modeling and validation of 2-ethyl-hexenal hydrogenation process, Computers & Chemical Engineering, 52, 2013, 100-111;
9. A. Padurean, C.C. Cormos, P.S. Agachi, Techno-economical evaluation of post- and pre- combustion carbon dioxide capture methods applied for an IGCC plant for power generation, Environmental Engineering and Management Journal, Vol. 12, No. 11, 2013, 2191-2202;
10. I.M. Bodea, C.C. Cormos, Applications of chemical looping combustion to energy conversion processes, Studia Universitatis Babes-Bolyai Chemia, LVIII, 4, 2013, 7-22;
11. M. Muresan, C.C. Cormos, P.S. Agachi,Comparative life cycle analysis for gasification-based hydrogen production systems, Journal of Renewable and Sustainable Energy, Volume 6, Issue 1, 2014, Article number 013131;
12. A. Padurean, A.M. Cormos, Economic implications of carbon capture options for power generation based on gasification, Studia Universitatis Babes-Bolyai Chemia, LIX, 2, 2014, 113-128;
13. C.C. Cormos, Techno-economic and environmental evaluations of large scale gasification-based CCS project in Romania, International Journal of Hydrogen Energy, 39, 2014, 13-27;
14. A.M. Cormos, C.C. Cormos, Investigation of hydrogen and power co-generation based on direct coal chemical looping systems, International Journal of Hydrogen Energy, 39, 2014, 2067-2077;
15. C.C. Cormos, Economic implications of pre- and post-combustion calcium looping configurations applied to gasification power plants, International Journal of Hydrogen Energy, 39, 2014, 10507-10516;
16. M. Muresan, C.C. Cormos, P.S. Agachi, Biomass gasification-based hydrogen production supply chain analysis under demand variability, Studia Universitatis Babes-Bolyai Chemia, LIX, 3, 2014, 29-42;
17. A.M. Cormos, I.M. Daraban, Dynamic modeling and validation of amine-based CO2 capture plant, Applied Thermal Engineering, 74, 2015, 202-209;
18. A.M. Cormos, A. Simon, Assessment of CO2 capture by calcium looping (CaL) process in a flexible power plant operation scenario, Applied Thermal Engineering, 80, 2015, 319-327;
19. C.C. Cormos, Assessment of chemical absorption / adsorption for post-combustion CO2 capture from Natural Gas Combined Cycle (NGCC) power plants, Applied Thermal Engineering, 82, 2015, 120-128;
20. C.C. Cormos, Biomass direct chemical looping for hydrogen and power co-production: Process configuration, simulation, thermal integration and techno-economic assessment, Fuel Processing Technology, 137, 2015, 16-23;
21. C.C. Cormos, Oxy-combustion of coal, lignite and biomass: A techno-economic analysis for a large scale Carbon Capture and Storage (CCS) project in Romania, Fuel, 139, 2016, 50-57;
22. C.C. Cormos, Evaluation of reactive absorption and adsorption systems for post-combustion CO2 capture applied to iron and steel industry, Applied Thermal Engineering, 105, 2016, 56-64;
23. A.M. Cormos, D.A. Chisalita, Contribution to the modeling and simulation of the iron-based chemical looping combustion process, Energy Technology, 4, 2016, 1-10;
24. L. Petrescu, C.C. Cormos, Environmental assessment of IGCC power plants with pre-combustion CO2 capture by chemical & calcium looping methods, Fuel, 2016, submitted.
25. L. Petrescu, D. Bonalumini, G. Valenti, A.M. Cormos, C.C. Cormos, Life cycle assessment for supercritical pulverized coal power plants with post-combustion carbon capture and storage, Journal of Cleaner Production, 2016, submitted;
Conferences
1. C.C. Cormos, P.S. Agachi, Integrated assessment of carbon capture and storage technologies in coal-based power generation using CAPE tools, European Symposium on Computer Aided Process Engineering, 30, 2012, 56-60;
2. M. Muresan, C.C. Cormos, P.S. Agachi, Multiproduct, multiechelon supply chain analysis under demand uncertainty and machine failure risk, European Symposium on Computer Aided Process Engineering, 30, 2012, 462-466;
3. A.M. Cormos, J. Gaspar, Evaluation of CO2 capture process and operational challenges by dynamic simulation, European Symposium on Computer Aided Process Engineering, 30, 2012, 178-191;
4. C.C. Cormos, A.M. Cormos, S. Agachi, Evaluation of chemical looping systems as carbon capture option to be applied to gasification processes, 23-rd European Symposium on Computer Aided Process Engineering - ESCAPE23, Lappeenranta, Finlanda, 2013;
5. M. Muresan, R. Rauch, H. Hofbauer, C.C. Cormos, P.S. Agachi, High purity hydrogen from biomass gasification in dual fluidised bed system: Aspen Plus process simulation, 13-th International Conference on Polygeneration Strategies, Viena, Austria, 2013;
6. A.M. Cormos, R.H. Misca, P.S. Agachi, Evaluation of dynamic behaviour for post-combustion CO2 capture process, 6-th Clean Coal Technologies Conference - CCT2013, Salonic, Greece, 2013;
7. C.C. Cormos,Hydrogen and power co-generation based on syngas and solid fuel direct chemical looping systems, 12-th European Gasification Conference, Rotterdam, The Netherlands, 2014;
8. A.M. Cormos, A. Simon, Dynamic modeling and validation of post-combustion calcium- looping process, 24th European Symposium on Computer Aided Process Engineering, Budapest, Hungary, 2014 (published in Computer-Aided Chemical Engineering, 33, 2014, 1645-1650);
9. C.C. Cormos, Assessment of energy vectors poly-generation concepts based on solid fuel direct chemical looping systems, 7th Clean Coal Techologies Conference, Krakow, Poland, 17 - 21 May 2015;
10. C.C. Cormos, A.M. Cormos, P.S. Agachi, Evaluation of energy integration aspects for advanced chemical looping systems applied for energy vectors poly-generation, 25th European Symposium on Computer Aided Process Engineering - ESCAPE 25, Copenhagen, Denmark, 31 May - 4 June 2015 (published in Computer-Aided Chemical Engineering, 37, 2015, 2237-2242);
11. C.C. Cormos, A.M. Cormos, Assessment of CO2 capture by calcium looping from Natural Gas Combined Cycle (NGCC) power plants, 18th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction - PRES 2015, Kuching Malaysia, 23 - 27 August 2015 (published in Chemical Engineering Transactions, 45, 2015, 277-282);
12. C.C. Cormos, L. Petrescu, A.M. Cormos, S. Agachi, Process design and integration of various carbon capture approaches into the energy sector and other energy-intensive industrial applications, 26-th European Symposium on Computer Aided Process Engineering - ESCAPE26, Portoroz, Slovenia, 12-15 Iunie 2016 (published în Computer-Aided Chemical Engineering, 38, 2016, 265-270);
13. A.M. Cormos, D.A. Chisalita, Assessment of chemical looping combustion process by dynamic simulation, 26-th European Symposium on Computer Aided Process Engineering - ESCAPE26, Portoroz, Slovenia, 12-15 Iunie 2016 (published în Computer-Aided Chemical Engineering, 38, 2016, 271-276);
14. C.C. Cormos, A.M. Cormos, Innovative energy conversion systems by chemical looping: Conceptual design, modeling and simulation, thermal integration and performance evaluation, 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics - HEFAT2016, Malaga, Spania, 11-13 Iulie 2016.
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