Domingo Santana
Zitiert von
Zitiert von
Thermal design guidelines of solar power towers
MR Rodríguez-Sánchez, A Soria-Verdugo, JA Almendros-Ibáńez, ...
Applied Thermal Engineering 63 (1), 428-438, 2014
Solar flux distribution on central receivers: A projection method from analytic function
A Sánchez-González, D Santana
Renewable Energy 74, 576-587, 2015
Assessment of biomass energy sources and technologies: The case of Central America
L Cutz, P Haro, D Santana, F Johnsson
Renewable and Sustainable Energy Reviews 58, 1411-1431, 2016
Comparison of simplified heat transfer models and CFD simulations for molten salt external receiver
MR Rodríguez-Sánchez, C Marugan-Cruz, A Acosta-Iborra, D Santana
Applied thermal engineering 73 (1), 993-1005, 2014
Aiming strategy model based on allowable flux densities for molten salt central receivers
A Sánchez-González, MR Rodríguez-Sánchez, D Santana
Solar Energy 157, 1130-1144, 2017
Heat transfer and thermal stresses in a circular tube with a non-uniform heat flux
C Marugán-Cruz, O Flores, D Santana, M García-Villalba
International Journal of Heat and Mass Transfer 96, 256-266, 2016
New designs of molten-salt tubular-receiver for solar power tower
MR Rodríguez-Sánchez, A Sánchez-González, C Marugán-Cruz, ...
Energy Procedia 49, 504-513, 2014
Initial particle velocity spatial distribution from 2-D erupting bubbles in fluidized beds
D Santana, S Nauri, A Acosta, N García, A Macías-Machín
Powder Technology 150 (1), 1-8, 2005
Aiming factor to flatten the flux distribution on cylindrical receivers
A Sánchez-González, MR Rodríguez-Sánchez, D Santana
Energy 153, 113-125, 2018
On the minimum fluidization velocity in 2D fluidized beds
S Sánchez-Delgado, JA Almendros-Ibáńez, N García-Hernando, ...
Powder Technology 207 (1-3), 145-153, 2011
Numerical model of solar external receiver tubes: Influence of mechanical boundary conditions and temperature variation in thermoelastic stresses
A Montoya, MR Rodríguez-Sánchez, J López-Puente, D Santana
Solar Energy 174, 912-922, 2018
Dense-phase velocity fluctuation in a 2-D fluidized bed
S Sánchez-Delgado, C Marugán-Cruz, A Acosta-Iborra, D Santana
Powder Technology 200 (1-2), 37-45, 2010
Deflection and stresses in solar central receivers
M Laporte-Azcué, PA González-Gómez, MR Rodríguez-Sánchez, ...
Solar Energy 195, 355-368, 2020
Flow patterns of external solar receivers
MR Rodriguez-Sanchez, A Sanchez-Gonzalez, C Marugan-Cruz, ...
Solar Energy 122, 940-953, 2015
Fluidization of Group B particles with a rotating distributor
C Sobrino, JA Almendros-Ibáńez, D Santana, M De Vega
Powder Technology 181 (3), 273-280, 2008
Modelling fluidized bed elutriation of fine particles
D Santana, JM Rodrıguez, A Macıas-Machın
Powder technology 106 (1-2), 110-118, 1999
A new model for ejected particle velocity from erupting bubbles in 2-D fluidized beds
JA Almendros-Ibáńez, C Sobrino, M de Vega, D Santana
Chemical Engineering Science 61 (18), 5981-5990, 2006
Bubble characteristics in a bubbling fluidized bed with a rotating distributor
C Sobrino, A Acosta-Iborra, D Santana, M De Vega
International Journal of Multiphase Flow 35 (10), 970-976, 2009
Gas interchange between bubble and emulsion phases in a 2D fluidized bed as revealed by two-fluid model simulations
F Hernández-Jiménez, A Gómez-García, D Santana, A Acosta-Iborra
Chemical engineering journal 215, 479-490, 2013
Calculating molten-salt central-receiver lifetime under creep-fatigue damage
PA González-Gómez, MR Rodríguez-Sánchez, M Laporte-Azcué, ...
Solar Energy 213, 180-197, 2021
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20