List of publications

Articles

1. A.M. Cormos, C.C. Cormos, Reducing the carbon footprint of cement industry by post-combustion CO2 capture: Techno-economic and environmental assessment of a CCS project in Romania, Chemical Engineering Research and Design, 123 (2017) 230-239;

2. A.M. Cormos, C.C. Cormos, Techno-economic evaluations of post-combustion CO2 capture from sub- and super-critical circulated fluidised bed combustion (CFBC) power plants, Applied Thermal Engineering, 127 (2017) 106-115;

3. A.M. Cormos, C. Dinca, L. Petrescu, D.A. Chisalita, S. Szima, C.C. Cormos, Carbon capture and utilisation technologies applied to energy conversion systems and other energy-intensive industrial applications, Fuel, 211 (2018) 883-890;

4. C.C. Cormos, Assessment of copper-based chemical looping air separation system for energy efficiency improvements of oxy-combustion and gasification power plants, Applied Thermal Engineering, 130 (2018) 120-126;

5. D.A. Chisalita, A.M. Cormos, Dynamic simulation of fluidized bed chemical looping combustion process with iron based oxygen carrier, Fuel, 214 (2018) 436-44;

6. S. Szima, C.C. Cormos, Improving methanol synthesis from carbon-free H2 and captured CO2: A techno-economic and environmental evaluation, Journal of CO2 Utilization, 24 (2018) 555-563;

7. C.C. Cormos, Techno-economic evaluations of copper-based chemical looping air separation system for oxy-combustion and gasification power plants with carbon capture, Energies, 11 (2018) 1-17;

8. D.A. Chisalita, L. Petrescu, P. Cobden, H.A.J van Dijk, A.M. Cormos, C.C. Cormos, Assessing the environmental impact of an integrated steel mill with post-combustion CO2 capture and storage using the LCA methodology, Journal of Cleaner Production, 211 (2019) 1015-1025;

9. D.A. Chisalita, C.C. Cormos, Techno-economic assessment of hydrogen production processes based on various natural gas chemical looping systems with carbon capture, Energy, 181 (2019) 331-344;

10. S. Szima, C.C. Cormos, Techno - economic assessment of flexible decarbonized hydrogen and power co-production based on natural gas dry reforming, International Journal of Hydrogen Energy, 2019, accepted for publication;

11. C.C. Cormos, Energy and cost efficient manganese chemical looping air separation cycle for decarbonized power generation based on oxy-fuel combustion and gasification, Energy, 2019, accepted for publication.

Conferences

1. C.C. Cormos, L. Petrescu, A.M. Cormos, Chemical & Calcium Looping Systems: Heat Integration Analysis for Improvement the Energy Efficiency of Various Industrial Processes, 13th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics - HEFAT2017, Portoroz, Slovenia, 17-19 Iuly 2017;

2. A.M. Cormos, D.A. Chisalita, L. Bizo, H. Lisei, C.C. Cormos, Model of Heat Transfer in Circulating Fluidized Beds Applied for CO2 Capture by Calcium-looping Process, 13th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics - HEFAT2017, Portoroz, Slovenia, 17-19 Iuly 2017;

3. C.C. Cormos, A.M. Cormos, L. Petrescu, Assessing the CO2 Emissions Reduction from Cement Industry by Carbon Capture Technologies: Conceptual Design, Process Integration and Techno-economic and Environmental Analysis, 27-th European Symposium on Computer Aided Process Engineering - ESCAPE27, Barcelona, Spain, 1 - 5 October 2017;

4. C.C. Cormos, S. Dragan, L. Petrescu, D.A. Chisalita, S. Szima, A.M. Cormos, Assessment of chemical & calcium looping technologies as promising carbon capture options applied to energy-intensive industrial applications, 10-th World Congress of Chemical Engineering - WCCE10, Barcelona, Spain, 1 - 5 October 2017;

5. D.A. Chisalita, L. Petrescu, A.M. Cormos, C.C. Cormos, Assessing energy and CO2 emission reduction from ammonia production by chemical looping as innovative carbon capture technology, 28-th European Symposium on Computer Aided Process Engineering - ESCAPE28, Graz, Austria, 10 - 13 June 2018;

6. S. Szima, A.M. Cormos, C.C. Cormos, Flexible hydrogen and power co - generation based on dry methane reforming with carbon capture, 28-th European Symposium on Computer Aided Process Engineering - ESCAPE28, Graz, Austria, 10 - 13 June 2018;

7. S. Szima, C.C. Cormos, Energy analysis of a power plant with flexible hydrogen output and carbon capture for lower environmental impact, Computer Aided Process Engineering (CAPE) Forum, Bucharest, Romania, 15 - 17 November 2018;

8. S. Szima, C.C. Cormos, Exergoeconomic analysis for a flexible dry reforming power plant with carbon capture for improved energy efficiency, 29-th European Symposium on Computer Aided Process Engineering - ESCAPE29, Eindhoven, The Netherlands, 16 - 19 June 2019;

9. C.C. Cormos, L. Petrescu, A.M. Cormos, D.A. Chisalita, Chemical looping technology - An energy efficient way for reducing carbon footprint of fossil-based industrial processes , 21-st Romanian International Conference on Chemistry and Chemical Engineering - RICCCE21, Mamaia, Romania, 4 - 7 September 2019;

10. V.C. Sandu, A.M. Cormos, C.C. Cormos, Evaluation of energy integration aspects for IGCC power plant equipped with CO2 capture feature based on reactive gas-solid systems , 14th Conference on Sustainable Development of Energy, Water and Environment Systems (SDEWES), Dubrovnik, Croatia, 1-6 October 2019;

11. D.A. Chisalita, L. Petrescu, C.C. Cormos, Environmental comparison of various ammonia production plants with carbon capture and storage , 14th Conference on Sustainable Development of Energy, Water and Environment Systems (SDEWES), Dubrovnik, Croatia, 1-6 October 2019;

12. A.M. Cormos, S. Dragan, L. Petrescu, D.A. Chisalita, S. Szima, V. Sandu, C.C. Cormos, Reducing the carbon footprint of power generation systems and other energy-intensive industrial applications by CO2 capture and utilization technologies: An integrated technical & environmental assessment , 22-nd Conference on Process Integration. Modelling, and Optimisation for Energy Saving and Pollution Reduction - PRES 19, Crete, Greece, 20 - 23 October 2019.

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