| 1 |
Numerical investigation of firing concepts for a flexible Greek lignite-fired power plant
Drosatos P, Nikolopoulos N, Agraniotis M, Kakaras E
Fuel Processing Technology, 142, 370, 2016 |
| 2 |
Report on comparison among current industrial scale lignite drying technologies (A critical review of current technologies)
Nikolopoulos N, Violidakis I, Karampinis E, Agraniotis M, Bergins C, Grammelis P, Kakaras E
Fuel, 155, 86, 2015 |
| 3 |
Decoupled CFD simulation of furnace and heat exchangers in a lignite utility boiler
Drosatos P, Nikolopoulos N, Agraniotis M, Itskos G, Grammelis P, Kakaras E
Fuel, 117, 633, 2014 |
| 4 |
Parametric investigation of a renewable alternative for utilities adopting the co-firing lignite/biomass concept
Nikolopoulos N, Agraniotis M, Violidakis I, Karampinis E, Nikolopoulos A, Grammelis P, Papapavlou C, Tzivenis S, Kakaras E
Fuel, 113, 873, 2013 |
| 5 |
Investigation of technical and economic aspects of pre-dried lignite utilisation in a modern lignite power plant towards zero CO2 emissions
Agraniotis M, Koumanakos A, Doukelis A, Karellas S, Kakaras E
Energy, 45(1), 134, 2012 |
| 6 |
Numerical investigation of Solid Recovered Fuels' co-firing with brown coal in large scale boilers - Evaluation of different co-combustion modes
Agraniotis M, Nikolopoulos N, Nikolopoulos A, Grammelis P, Kakaras E
Fuel, 89(12), 3693, 2010 |
| 7 |
Numerical investigation on the combustion behaviour of pre-dried Greek lignite
Agraniotis M, Stamatis D, Grammelis P, Kakaras E
Fuel, 88(12), 2385, 2009 |
| 8 |
Experimental investigation on the combustion behaviour of pre-dried Greek lignite
Agraniotis M, Grammelis P, Papapavlou C, Kakaras E
Fuel Processing Technology, 90(9), 1071, 2009 |
