| Oxyfuel combustion for CO2 capture in power plants R Stanger, T Wall, R Spörl, M Paneru, S Grathwohl, M Weidmann, ... International journal of greenhouse gas control 40, 55-125, 2015 | 565 | 2015 |
| A line by line based weighted sum of gray gases model for inhomogeneous CO2–H2O mixture in oxy-fired combustion MH Bordbar, G Węcel, T Hyppänen Combustion and flame 161 (9), 2435-2445, 2014 | 224 | 2014 |
| Review and research needs of Ca-Looping systems modelling for post-combustion CO2 capture applications I Martínez, G Grasa, J Parkkinen, T Tynjälä, T Hyppänen, R Murillo, ... International Journal of Greenhouse Gas Control 50, 271-304, 2016 | 147 | 2016 |
| A three-dimensional model frame for modelling combustion and gasification in circulating fluidized bed furnaces K Myöhänen, T Hyppänen International Journal of Chemical Reactor Engineering 9 (1), 2011 | 96 | 2011 |
| Near Zero CO2 Emissions in Coal Firing with Oxy‐Fuel Circulating Fluidized Bed Boiler K Myöhänen, T Hyppänen, T Pikkarainen, T Eriksson, A Hotta Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2009 | 93 | 2009 |
| Modeling of the oxy-combustion calciner in the post-combustion calcium looping process J Ylätalo, J Parkkinen, J Ritvanen, T Tynjälä, T Hyppänen Fuel 113, 770-779, 2013 | 68 | 2013 |
| 2D dynamic mesh model for deposit shape prediction in boiler banks of recovery boilers with different tube spacing arrangements MG Pérez, E Vakkilainen, T Hyppänen Fuel 158, 139-151, 2015 | 58 | 2015 |
| Method and apparatus for separating particles from hot gases T Hyppänen US Patent 6,802,890, 2004 | 54 | 2004 |
| CFD simulations of gas–solid flow in an industrial-scale circulating fluidized bed furnace using subgrid-scale drag models S Shah, K Myöhänen, S Kallio, T Hyppänen Particuology 18, 66-75, 2015 | 53 | 2015 |
| CFD modeling of gas–solids flow in a large scale circulating fluidized bed furnace S Shah, K Myöhänen, S Kallio, J Ritvanen, T Hyppänen Powder Technology 274, 239-249, 2015 | 47 | 2015 |
| Model based scale-up study of the calcium looping process J Ylätalo, J Ritvanen, T Tynjälä, T Hyppänen Fuel 115, 329-337, 2014 | 47 | 2014 |
| Oxyfuel CFB boiler as a route to near zero CO2 emission coal firing T Eriksson, A Hotta, Z Fan, K Myöhänen, T Hyppänen, T Pikkarainen Power-Gen Europe 2007, 2007 | 47 | 2007 |
| Fluidized bed combustion in high concentrations of O2 and CO2 J Saastamoinen, A Tourunen, T Pikkarainen, H Häsä, J Miettinen, ... 19th International Conference on Fluidized Bed Combustion, FBC 2006, 2006 | 47 | 2006 |
| Unsteady CFD analysis of kraft recovery boiler fly-ash trajectories, sticking efficiencies and deposition rates with a mechanistic particle rebound-stick model MG Pérez, E Vakkilainen, T Hyppänen Fuel 181, 408-420, 2016 | 46 | 2016 |
| Method of and an apparatus for recovering heat in a fluidized bed reactor T Hyppänen, KVO Kauppinen, P Lehtonen, H Vilokki, K Väliaho US Patent 7,240,639, 2007 | 46 | 2007 |
| 1-Dimensional modelling and simulation of the calcium looping process J Ylätalo, J Ritvanen, B Arias, T Tynjälä, T Hyppänen International Journal of Greenhouse Gas Control 9, 130-135, 2012 | 45 | 2012 |
| Modeling of radiation heat transfer in a boiler furnace MH Bordbar, T Hyppänen Advanced Studies in Theoretical Physics 1 (12), 571-584, 2007 | 45 | 2007 |
| Fouling growth modeling of kraft recovery boiler fume ash deposits with dynamic meshes and a mechanistic sticking approach MG Pérez, E Vakkilainen, T Hyppänen Fuel 185, 872-885, 2016 | 44 | 2016 |
| Process integration of chemical looping combustion with oxygen uncoupling in a coal-fired power plant M Spinelli, P Peltola, A Bischi, J Ritvanen, T Hyppänen, MC Romano Energy 103, 646-659, 2016 | 43 | 2016 |
| Coupling of a radiative heat transfer model and a three-dimensional combustion model for a circulating fluidized bed furnace MH Bordbar, K Myöhänen, T Hyppänen Applied Thermal Engineering 76, 344-356, 2015 | 43 | 2015 |
