Fișa de îndeplinire a standardelor minimale stabilite de CNATDCU conform Monitorul Oficial nr. 890 bis din 27 decembrie 2012

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Transcription:

Fișa de îndeplinire a standardelor minimale stabilite de CNATDCU conform Monitorul Oficial nr. 890 bis din 27 decembrie 2012 Conf. Dr. Ing. Călin-Cristian Cormoș I. Număr total de articole în reviste ISI (NT): NT 25 Scor realizat de candidat: NT = 48 1. C.C. Cormos, Assessment of chemical absorption/adsorption for post-combustion CO 2 capture from Natural Gas Combined Cycle (NGCC) power plants, Applied Thermal Engineering, 82, 2015, 120-128 2. A.M. Cormos, C. Dinca, C.C. Cormos, Multi-fuel multi-product operation of IGCC power plants with carbon capture and storage (CCS), Applied Thermal Engineering, 2015, 74, 20-27 3. C.C. Cormos, Economic evaluations of coal-based combustion and gasification power plants with post-combustion CO 2 capture using calcium looping cycle, Energy, 2014, 78, 665-673 4. M. Muresan, C.C. Cormos, P.S. Agachi, Biomass gasification-based hydrogen supply chain analysis under demand variability, Studia UBB Chemia, LIX, 3, 2014, 29-42 5. L. Petrescu, C.C. Cormos, Waste reduction (WAR) algorithm applied for environmental impact assessment of coal gasification with carbon capture and storage, Journal of Cleaner Production, 2014, accepted, in press 6. S. Fogarasi, C.C. Cormos, Technico-economic assessment of coal and sawdust cofiring power generation with CO 2 capture, Journal of Cleaner Production, 2014, accepted, in press 7. B. Dorneanu, C.C. Cormos, Techno-economic evaluation of Calcium Looping cycle for CO 2 capture from super-critical power plants, Studia Universitatis Chemia, LIX, 4, 2014, 205-215 8. 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 9. C.C. Cormos, Renewable hydrogen production concepts from bioethanol reforming with carbon capture, International Journal of Hydrogen Energy, 39, 2014, 5597-5606 10. M. Muresan, C.C. Cormos, S. Agachi, Comparative life cycle analysis for gasification-based hydrogen production systems, Journal of Renewable and Sustainable Energy, 6, 2014, 013131 1

11. 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 12. 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 13. C.C. Cormos, A.M. Cormos, L. Petrescu, Assessment of chemical looping-based conceptual designs for high efficient hydrogen and power co-generation applied to gasification processes, Chemical Engineering Research and Design, 92, 2014, 741-751 14. I.M. Bodea, C.C. Cormos, Applications of chemical looping combustion to energy conversion processes, Studia Chemia, 4, 2013, 7-22 15. C. Dinca, C.C. Cormos, H. Necula, Environmental impact assessment of GHG emissions generated by coal life cycle and solutions for reducing CO 2, Journal of Environmental Protection, 4, 2013, 5-15 16. F. Goga, R. Dudric, C.C. Cormos, F. Imre, L. Bizo, Radu Misca, Fly ash from thermal power plant, raw material for glass-ceramic, Environmental Engineering and Management Journal, 12 (2), 2013, 337-342 17. C.C. Cormos, Assessment of flexible energy vectors poly-generation based on coal and biomass/solid wastes co-gasification with carbon capture, International Journal of Hydrogen Energy, 38, 2013, 7855-7866 18. C.C. Cormos, C. Dinca, Assessment of mass and energy integration aspects for IGCC power plants with carbon capture and storage (CCS), Studia Universitatis Chemia, LVIII, 1, 2013, 117-131 19. M. Muresan, C.C. Cormos, P.S. Agachi, Techno-economical assessment of coal and biomass gasification-based hydrogen production supply chain system, Chemical Engineering Research and Design, 91, 2013, 1527-1541 20. C.C. Cormos, K. Vatopoulos, E. Tzimas, Assessment of the consumption of water and construction materials in state-of-the-art fossil fuel power generation technologies involving CO 2 capture, Energy, 51, 2013, 37-49 21. C.C. Cormos, A.M. Cormos, Assessment of calcium-based chemical looping options for gasification power plants, International Journal of Hydrogen Energy, 38, 2013, 2306-2317 22. A. Padurean, C.C. Cormos, P.S. Agachi, Techno-economic evaluation of pre- and post-combustion carbon dioxide capture methods applied for an IGCC plant for power generation, Environmental Engineering and Management Journal, 12, 2013, 2191-2202 23. I.M. Bodea, C.C. Cormos, Evaluation of iron and nickel-based oxygen carriers for natural gas chemical looping combustion systems, Studia Universitatis Chemia, LVII, 2, 2012, 47-57 24. 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 2

25. C.C. Cormos, Integrated assessment of IGCC power generation technology with carbon capture and storage (CCS), Energy, 42, 2012, 434-445 26. 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 27. 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 28. M. Badaluta, C.C. Cormos, P.S. Agachi, Hydrogen Production through cogasification of coal and biomass with carbon dioxide capture, Studia Universitatis Chemia, LVII, 1, 2012, 167-174 29. F. Starr, C.C. Cormos, Materials challenges and gasifier choices in IGCC processes for clean and efficient energy conversion, Materials Research Innovations 15, 2011, 428-446 30. V. Goia, C.C. Cormos, P.S. Agachi, Influence of temperature and heating rate on biomass pyrolysis in a fixed-bed reactor, Studia Universitatis Babes-Bolyai, Chemia, LVI, 2, 2011, 49 56 31. C.C. Cormos, Hydrogen production from fossil fuels with carbon capture and storage based on chemical looping systems, International Journal of Hydrogen Energy, 36, 2011, 5960-5971 32. C.C. Cormos, Evaluation of power generation schemes based on hydrogen-fuelled combined cycle with carbon capture and storage (CCS), International Journal of Hydrogen Energy, 36, 2011, 3726-3738 33. A. Padurean, C.C. Cormos, A.M. Cormos, P.S. Agachi, Multicriterial analysis of post-combustion carbon dioxide capture using alkanolamines, International Journal of Greenhouse Gas Control, 5, 2011, 676-685 34. C.C. Cormos, Evaluation of energy integration aspects for IGCC-based hydrogen and electricity co-production with carbon capture and storage, International Journal of Hydrogen Energy, 35, 2010, 7485-7497 35. A.M. Padurean, C.C. Cormos, A.M. Cormos, S. Agachi, Technical assessment of CO 2 capture using alkanolamines solutions, Studia Universitatis Babes-Bolyai, Chemia, LV, 1, 2010, 55 63 36. V. Maxim, C.C. Cormos, P.S. Agachi, Mathematical modeling and simulation of coal co-gasification with waste/biomass in an entrained-flow gasifier, Studia Universitatis Babes-Bolyai, Chemia, LV, 2, 2010, 51 62 37. C.C. Cormos, Evaluation of iron based chemical looping for hydrogen and electricity co-production by gasification process with carbon capture and storage, International Journal of Hydrogen Energy, 35, 2010, 2278 2289 38. C.C. Cormos, F. Starr, E. Tzimas, Use of lower grade coals in IGCC plants with carbon capture for the co-production of hydrogen and electricity, International Journal of Hydrogen Energy, 35, 2010, 556 567 3

39. C.C. Cormos, Assessment of hydrogen and electricity co-production schemes based on gasification process with carbon capture and storage, International Journal of Hydrogen Energy, 34, 2009, 6065 6077 40. C.C. Cormos, S. Agachi, Gasification process A practical way for solid fossil fuels decarbonisation, Studia Universitatis Babes-Bolyai, Chemia, LIV, 1, 2009, 81 91 41. C.C. Cormos, A.M. Cormos, S. Agachi, Power generation from coal and biomass based on IGCC concept with pre and post-combustion carbon capture methods, Asia Pacific Journal of Chemical Engineering, 4, 2009, 870 877 42. C.C. Cormos, F. Starr, E. Tzimas, S. Peteves, Innovative concepts for hydrogen production processes based on coal gasification with CO 2 capture, International Journal of Hydrogen Energy, 2008, Volume 33, Issue 4, 1286 1294 43. C.C. Cormos, F. Starr, E. Tzimas, S. Peteves, Compressor issues for hydrogen production and transmission through a long distance pipeline network, Revista de Chimie, 59(4), 2008, 443 447 44. S. Bandyopadhyay, C.C. Cormos, Water Management in Process Industries Incorporating Regeneration and Recycle through a Single Treatment Unit, Industrial and Engineering Chemistry Research, 2008, 47(4), 1111 1119 45. E. Tzimas, A. Mercier, C.C. Cormos, S. Peteves, Trade-off in emissions of acid gas pollutants and of carbon dioxide in fossil fuels power plants with carbon capture, Energy Policy, 35, 2007, 3991 3998 46. C.C. Cormos, A.M. Cormos, S. Agachi, Modelarea şi simularea procesului de carbonatare a saramurii amoniacale din cadrul tehnologiei de obţinere a sodei calcinate, Revista de Chimie, 57(2), 2006, 130-137 47. C.C. Cormos, A.M. Cormos, S. Agachi, Modelarea şi simularea procesului de regenerare a amoniacului rezultat din tehnologia de obţinere a sodei calcinate, Revista de Chimie, 56(11), 2005, 1124-1130 48. C.C. Cormos, S. Agachi, Modelarea si simularea extractiei pantolactonei folosind programul ChemCAD, Revista de Chimie, 56(7), 2005, 750-756 II. Număr articole în reviste ISI la care candidatul este autor principal (prim autor sau autor de corespondență) (NP): NP 12 Scor realizat de candidat: NP = 32 1. C.C. Cormos, Assessment of chemical absorption/adsorption for post-combustion CO 2 capture from Natural Gas Combined Cycle (NGCC) power plants, Applied Thermal Engineering, 82, 2015, 120-128 2. A.M. Cormos, C. Dinca, C.C. Cormos, Multi-fuel multi-product operation of IGCC power plants with carbon capture and storage (CCS), Applied Thermal Engineering, 2015, 74, 20-27 4

3. C.C. Cormos, Economic evaluations of coal-based combustion and gasification power plants with post-combustion CO 2 capture using calcium looping cycle, Energy, 2014, 78, 665-673 4. M. Muresan, C.C. Cormos, P.S. Agachi, Biomass gasification-based hydrogen supply chain analysis under demand variability, Studia UBB Chemia, LIX, 3, 2014, 29-42 5. B. Dorneanu, C.C. Cormos, Techno-economic evaluation of Calcium Looping cycle for CO 2 capture from super-critical power plants, Studia Universitatis Chemia, LIX, 4, 2014, 205-215 6. 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 7. C.C. Cormos, Renewable hydrogen production concepts from bioethanol reforming with carbon capture, International Journal of Hydrogen Energy, 39, 2014, 5597-5606 8. 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 9. 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 10. C.C. Cormos, A.M. Cormos, L. Petrescu, Assessment of chemical looping-based conceptual designs for high efficient hydrogen and power co-generation applied to gasification processes, Chemical Engineering Research and Design, 92, 2014, 741-751 11. I.M. Bodea, C.C. Cormos, Applications of chemical looping combustion to energy conversion processes, Studia Chemia, 4, 2013, 7-22 12. C.C. Cormos, Assessment of flexible energy vectors poly-generation based on coal and biomass/solid wastes co-gasification with carbon capture, International Journal of Hydrogen Energy, 38, 2013, 7855-7866 13. C.C. Cormos, C. Dinca, Assessment of mass and energy integration aspects for IGCC power plants with carbon capture and storage (CCS), Studia Universitatis Chemia, LVIII, 1, 2013, 117-131 14. C.C. Cormos, K. Vatopoulos, E. Tzimas, Assessment of the consumption of water and construction materials in state-of-the-art fossil fuel power generation technologies involving CO 2 capture, Energy, 51, 2013, 37-49 15. C.C. Cormos, A.M. Cormos, Assessment of calcium-based chemical looping options for gasification power plants, International Journal of Hydrogen Energy, 38, 2013, 2306-2317 16. I.M. Bodea, C.C. Cormos, Evaluation of iron and nickel-based oxygen carriers for natural gas chemical looping combustion systems, Studia Universitatis Chemia, LVII, 2, 2012, 47-57 5

17. 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 18. C.C. Cormos, Integrated assessment of IGCC power generation technology with carbon capture and storage (CCS), Energy, 42, 2012, 434-445 19. 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 20. C.C. Cormos, Hydrogen production from fossil fuels with carbon capture and storage based on chemical looping systems, International Journal of Hydrogen Energy, 36, 2011, 5960-5971 21. C.C. Cormos, Evaluation of power generation schemes based on hydrogen-fuelled combined cycle with carbon capture and storage (CCS), International Journal of Hydrogen Energy, 36, 2011, 3726-3738 22. C.C. Cormos, Evaluation of energy integration aspects for IGCC-based hydrogen and electricity co-production with carbon capture and storage, International Journal of Hydrogen Energy, 35, 2010, 7485-7497 23. C.C. Cormos, Evaluation of iron based chemical looping for hydrogen and electricity co-production by gasification process with carbon capture and storage, International Journal of Hydrogen Energy, 35, 2010, 2278 2289 24. C.C. Cormos, F. Starr, E. Tzimas, Use of lower grade coals in IGCC plants with carbon capture for the co-production of hydrogen and electricity, International Journal of Hydrogen Energy, 35, 2010, 556 567 25. C.C. Cormos, Assessment of hydrogen and electricity co-production schemes based on gasification process with carbon capture and storage, International Journal of Hydrogen Energy, 34, 2009, 6065 6077 26. C.C. Cormos, S. Agachi, Gasification process A practical way for solid fossil fuels decarbonisation, Studia Universitatis Babes-Bolyai, Chemia, LIV, 1, 2009, 81 91 27. C.C. Cormos, A.M. Cormos, S. Agachi, Power generation from coal and biomass based on IGCC concept with pre and post-combustion carbon capture methods, Asia Pacific Journal of Chemical Engineering, 4, 2009, 870 877 28. C.C. Cormos, F. Starr, E. Tzimas, S. Peteves, Innovative concepts for hydrogen production processes based on coal gasification with CO 2 capture, International Journal of Hydrogen Energy, 2008, Volume 33, Issue 4, 1286 1294 29. C.C. Cormos, F. Starr, E. Tzimas, S. Peteves, Compressor issues for hydrogen production and transmission through a long distance pipeline network, Revista de Chimie, 59(4), 2008, 443 447 30. C.C. Cormos, A.M. Cormos, S. Agachi, Modelarea şi simularea procesului de carbonatare a saramurii amoniacale din cadrul tehnologiei de obţinere a sodei calcinate, Revista de Chimie, 57(2), 2006, 130-137 6

31. C.C. Cormos, A.M. Cormos, S. Agachi, Modelarea şi simularea procesului de regenerare a amoniacului rezultat din tehnologia de obţinere a sodei calcinate, Revista de Chimie, 56(11), 2005, 1124-1130 32. C.C. Cormos, S. Agachi, Modelarea si simularea extractiei pantolactonei folosind programul ChemCAD, Revista de Chimie, 56(7), 2005, 750-756 III. Factor de impact cumulat (FIC): FIC 16 Scor realizat de candidat: FIC = 78,691 Nr. Articol FI FIC 1. C.C. Cormos, Economic evaluations of coal-based combustion and 4,159 4,159 gasification power plants with post-combustion CO 2 capture using calcium looping cycle, Energy, 2014, 78, 665-673 2. C.C. Cormos, K. Vatopoulos, E. Tzimas, Assessment of the 4,159 4,159 consumption of water and construction materials in state-of-the-art fossil fuel power generation technologies involving CO 2 capture, Energy, 51, 2013, 37-49 3. C.C. Cormos, Integrated assessment of IGCC power generation 4,159 4,159 technology with carbon capture and storage (CCS), Energy, 42, 2012, 434-445 4. A. Padurean, C.C. Cormos, P.S. Agachi, Pre-combustion carbon 3,821 1,273 dioxide capture by gas-liquid absorption for Integrated Gasification Combined Cycle power plants, International Journal of Greenhouse Gas Control, 7, 2012, 1-11 5. A. Padurean, C.C. Cormos, A.M. Cormos, P.S. Agachi, 3,821 0,955 Multicriterial analysis of post-combustion carbon dioxide capture using alkanolamines, International Journal of Greenhouse Gas Control, 5, 2011, 676-685 6. L. Petrescu, C.C. Cormos, Waste reduction (WAR) algorithm 3,59 1,795 applied for environmental impact assessment of coal gasification with carbon capture and storage, Journal of Cleaner Production, 2014, accepted, in press 7. S. Fogarasi, C.C. Cormos, Technico-economic assessment of coal 3,59 1,795 and sawdust co-firing power generation with CO 2 capture, Journal of Cleaner Production, 2014, accepted, in press 8. 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 7

9. C.C. Cormos, Renewable hydrogen production concepts from bioethanol reforming with carbon capture, International Journal of Hydrogen Energy, 39, 2014, 5597-5606 10. 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, 2067-207 11. 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 12. C.C. Cormos, Assessment of flexible energy vectors polygeneration based on coal and biomass/solid wastes co-gasification with carbon capture, International Journal of Hydrogen Energy, 38, 2013, 7855-7866 13. C.C. Cormos, A.M. Cormos, Assessment of calcium-based chemical looping options for gasification power plants, International Journal of Hydrogen Energy, 38, 2013, 2306-2317 14. 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 15. 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 16. C.C. Cormos, Hydrogen production from fossil fuels with carbon capture and storage based on chemical looping systems, International Journal of Hydrogen Energy, 36, 2011, 5960-5971 17. C.C. Cormos, Evaluation of power generation schemes based on hydrogen-fuelled combined cycle with carbon capture and storage (CCS), International Journal of Hydrogen Energy, 36, 2011, 3726-3738 18. C.C. Cormos, Evaluation of energy integration aspects for IGCCbased hydrogen and electricity co-production with carbon capture and storage, International Journal of Hydrogen Energy, 35, 2010, 7485-7497 19. C.C. Cormos, Evaluation of iron based chemical looping for hydrogen and electricity co-production by gasification process with carbon capture and storage, International Journal of Hydrogen Energy, 35, 2010, 2278 2289 20. C.C. Cormos, F. Starr, E. Tzimas, Use of lower grade coals in IGCC plants with carbon capture for the co-production of hydrogen and electricity, International Journal of Hydrogen Energy, 35, 2010, 556 567 8

21. C.C. Cormos, Assessment of hydrogen and electricity coproduction schemes based on gasification process with carbon capture and storage, International Journal of Hydrogen Energy, 34, 2009, 6065 6077 22. C.C. Cormos, F. Starr, E. Tzimas, S. Peteves, Innovative concepts for hydrogen production processes based on coal gasification with CO 2 capture, International Journal of Hydrogen Energy, 2008, Volume 33, Issue 4, 1286 1294 23. A.M. Cormos, C. Dinca, C.C. Cormos, Multi-fuel multi-product operation of IGCC power plants with carbon capture and storage (CCS), Applied Thermal Engineering, 2015, 74, 20-27 24. C.C. Cormos, Assessment of chemical absorption/adsorption for post-combustion CO 2 capture from Natural Gas Combined Cycle (NGCC) power plants, Applied Thermal Engineering, 82, 2015, 120-128 25. E. Tzimas, A. Mercier, C.C. Cormos, S. Peteves, Trade-off in emissions of acid gas pollutants and of carbon dioxide in fossil fuels power plants with carbon capture, Energy Policy, 35, 2007, 3991 3998 26. C.C. Cormos, A.M. Cormos, L. Petrescu, Assessment of chemical looping-based conceptual designs for high efficient hydrogen and power co-generation applied to gasification processes, Chemical Engineering Research and Design, 92, 2014, 741-751 27. M. Muresan, C.C. Cormos, P.S. Agachi, Techno-economical assessment of coal and biomass gasification-based hydrogen production supply chain system, Chemical Engineering Research and Design, 91, 2013, 1527-1541 28. S. Bandyopadhyay, C.C. Cormos, Water Management in Process Industries Incorporating Regeneration and Recycle through a Single Treatment Unit, Industrial and Engineering Chemistry Research, 2008, 47(4), 1111 1119 29. M. Muresan, C.C. Cormos, S. Agachi, Comparative life cycle analysis for gasification-based hydrogen production systems, Journal of Renewable and Sustainable Energy, 6, 2014, 013131 30. F. Goga, R. Dudric, C.C. Cormos, F. Imre, L. Bizo, Radu Misca, Fly ash from thermal power plant, raw material for glass-ceramic, Environmental Engineering and Management Journal, 12 (2), 2013, 337-342 31. A. Padurean, C.C. Cormos, P.S. Agachi, Techno-economic evaluation of pre- and post-combustion carbon dioxide capture methods applied for an IGCC plant for power generation, Environmental Engineering and Management Journal, 12, 2013, 2,624 2,624 2,624 2,624 2,696 0,674 2,293 2,293 2,293 0,764 2,235 1,117 1,51 0,503 1,258 0,209 1,258 0,419 9

2191-2202 32. C.C. Cormos, A.M. Cormos, S. Agachi, Power generation from coal and biomass based on IGCC concept with pre and postcombustion carbon capture methods, Asia Pacific Journal of Chemical Engineering, 4, 2009, 870 877 33. F. Starr, C.C. Cormos, Materials challenges and gasifier choices in IGCC processes for clean and efficient energy conversion, Materials Research Innovations 15, 2011, 428-446 34. C. Dinca, C.C. Cormos, H. Necula, Environmental impact assessment of GHG emissions generated by coal life cycle and solutions for reducing CO 2, Journal of Environmental Protection, 4, 2013, 5-15 35. C.C. Cormos, F. Starr, E. Tzimas, S. Peteves, Compressor issues for hydrogen production and transmission through a long distance pipeline network, Revista de Chimie, 59(4), 2008, 443 447 36. C.C. Cormos, A.M. Cormos, S. Agachi, Modelarea şi simularea procesului de carbonatare a saramurii amoniacale din cadrul tehnologiei de obţinere a sodei calcinate, Revista de Chimie, 57(2), 2006, 130-137 37. C.C. Cormos, A.M. Cormos, S. Agachi, Modelarea şi simularea procesului de regenerare a amoniacului rezultat din tehnologia de obţinere a sodei calcinate, Revista de Chimie, 56(11), 2005, 1124-1130 38. C.C. Cormos, S. Agachi, Modelarea si simularea extractiei pantolactonei folosind programul ChemCAD, Revista de Chimie, 56(7), 2005, 750-756 39. B. Dorneanu, C.C. Cormos, Techno-economic evaluation of Calcium Looping cycle for CO 2 capture from super-critical power plants, Studia Universitatis Chemia, LIX, 4, 2014, 205-215 40. M. Muresan, C.C. Cormos, P.S. Agachi, Biomass gasificationbased hydrogen supply chain analysis under demand variability, Studia UBB Chemia, LIX, 3, 2014, 29-42 41. I.M. Bodea, C.C. Cormos, Applications of chemical looping combustion to energy conversion processes, Studia Chemia, 4, 2013, 7-22 42. C.C. Cormos, C. Dinca, Assessment of mass and energy integration aspects for IGCC power plants with carbon capture and storage (CCS), Studia Universitatis Chemia, LVIII, 1, 2013, 117-131 43. I.M. Bodea, C.C. Cormos, Evaluation of iron and nickel-based oxygen carriers for natural gas chemical looping combustion systems, Studia Universitatis Chemia, LVII, 2, 2012, 47-57 0,623 0,623 0,473 0,236 0,67 0,223 0,677 0,677 0,677 0,677 0,677 0,677 0,677 0,677 0,136 0,136 0,136 0,136 0,136 0,136 0,136 0,136 0,136 0,136 10

44. M. Badaluta, C.C. Cormos, P.S. Agachi, Hydrogen Production 0,136 0,045 through co-gasification of coal and biomass with carbon dioxide capture, Studia Universitatis Chemia, LVII, 1, 2012, 167-174 45. V. Goia, C.C. Cormos, P.S. Agachi, Influence of temperature and 0,136 0,045 heating rate on biomass pyrolysis in a fixed-bed reactor, Studia Universitatis Babes-Bolyai, Chemia, LVI, 2, 2011, 49 56 46. A.M. Padurean, C.C. Cormos, A.M. Cormos, S. Agachi, Technical 0,136 0,034 assessment of CO 2 capture using alkanolamines solutions, Studia Universitatis Babes-Bolyai, Chemia, LV, 1, 2010, 55 63 47. V. Maxim, C.C. Cormos, P.S. Agachi, Mathematical modeling and simulation of coal co-gasification with waste/biomass in an 0,136 0,045 entrained-flow gasifier, Studia Universitatis Babes-Bolyai, Chemia, LV, 2, 2010, 51 62 48. C.C. Cormos, S. Agachi, Gasification process A practical way 0,136 0,136 for solid fossil fuels decarbonisation, Studia Universitatis Babes- Bolyai, Chemia, LIV, 1, 2009, 81 91 49. Brevet national: L. Terec, G. Bora, V. Colceriu, C.C. Cormos, E. Cotora, L. Lenta, M. Moga, H. Muresanu, M. Racolta, Procedeu de purificare a 1,4 - benzochinon - guanil - hidrazon - 1 0,111 tiosemicarbazona (ambazona), numar brevet: RO122360, Aplicant: S.C. Terapia S.A., Cluj-Napoca, Romania 50. Brevet international: L. Terec, G. Bora, V. Colceriu, C.C. Cormos, 3 0,333 E. Cotora, L. Lenta, M. Moga, H. Muresanu, M. Racolta, Process for the purification of 1,4 - benzochinone - guanyl - hidrazone - tiosemicarbazone (ambazone), WO/2005/028431 A1, Applicant: S.C. Terapia S.A., Cluj-Napoca, Romania Total FIC 78,691 IV. Număr total de citări (NC): NC 40 Scor realizat de candidat: NC = 600 11

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