Seguir
Jouni Ritvanen
Jouni Ritvanen
Associate Professor (Tenure Track), LUT University
Dirección de correo verificada de lut.fi
Título
Citado por
Citado por
Año
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
4992015
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
722013
Model based scale-up study of the calcium looping process
J Ylätalo, J Ritvanen, T Tynjälä, T Hyppänen
Fuel 115, 329-337, 2014
562014
Discrete element modelling of pebble packing in pebble bed reactors
H Suikkanen, J Ritvanen, P Jalali, R Kyrki-Rajamäki
Nuclear engineering and design 273, 24-32, 2014
492014
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
452012
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
442015
One-dimensional modelling of chemical looping combustion in dual fluidized bed reactor system
P Peltola, J Ritvanen, T Tynjälä, T Pröll, T Hyppänen
International Journal of Greenhouse Gas Control 16, 72-82, 2013
412013
Mass, energy, and exergy balance analysis of chemical looping with oxygen uncoupling (CLOU) process
P Peltola, T Tynjälä, J Ritvanen, T Hyppänen
Energy conversion and management 87, 483-494, 2014
382014
Model-based evaluation of a chemical looping combustion plant for energy generation at a pre-commercial scale of 100 MWth
P Peltola, J Ritvanen, T Tynjälä, T Hyppänen
Energy conversion and management 76, 323-331, 2013
382013
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
362016
Fuel reactor modelling in chemical looping with oxygen uncoupling process
P Peltola, J Ritvanen, T Tynjälä, T Hyppänen
Fuel 147, 184-194, 2015
322015
Generation of data sets for semi-empirical models of circulated fluidized bed boilers using hybrid Euler-Lagrange technique
WP Adamczyk, K Myöhänen, EU Hartge, J Ritvanen, A Klimanek, ...
Energy 143, 219-240, 2018
312018
Characterization method of average gas–solid drag for regular and irregular particle groups
M Nikku, P Jalali, J Ritvanen, T Hyppänen
Powder technology 253, 284-294, 2014
312014
Space averaging on a gas–solid drag model for numerical simulations of a CFB riser
S Shah, J Ritvanen, T Hyppänen, S Kallio
Powder technology 218, 131-139, 2012
302012
Simulation of a sorbent enhanced gasification pilot reactor and validation of reactor model
A Pitkäoja, J Ritvanen, S Hafner, T Hyppänen, G Scheffknecht
Energy conversion and management 204, 112318, 2020
242020
Bed Sherwood number in fluidised bed combustion by Eulerian CFD modelling
A Vepsäläinen, S Shah, J Ritvanen, T Hyppänen
Chemical engineering science 93, 206-213, 2013
242013
Interphase mass transfer coefficient in fluidized bed combustion by Eulerian CFD modeling
A Vepsäläinen, S Shah, J Ritvanen, T Hyppänen
Chemical Engineering Science 106, 30-38, 2014
222014
Three-dimensional modeling of biomass fuel flow in a circulating fluidized bed furnace with an experimentally derived momentum exchange model
M Nikku, K Myöhänen, J Ritvanen, T Hyppänen, M Lyytikäinen
Chemical Engineering Research and Design 115, 77-90, 2016
192016
Intermittency of energy in rapid granular shear flows
P Jalali, M Li, J Ritvanen, P Sarkomaa
Chaos: An Interdisciplinary Journal of Nonlinear Science 13 (2), 434-443, 2003
192003
Three-dimensional modeling of fuel flow with a holistic circulating fluidized bed furnace model
M Nikku, K Myöhänen, J Ritvanen, T Hyppänen
Chemical Engineering Science 117, 352-363, 2014
172014
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20