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Multiphysics modeling of convective cooling of non-spherical, multi-material fruit to unveil its quality evolution throughout the cold chain
Tagliavini, G., Defraeye, T., & Carmeliet, J. (2019). Multiphysics modeling of convective cooling of non-spherical, multi-material fruit to unveil its quality evolution throughout the cold chain. Food and Bioproducts Processing, 117, 310-320. https://doi.org/10.1016/j.fbp.2019.07.013
CFD modeling of convective scalar transport in a macroporous material for drying applications
Lal, S., Lucci, F., Defraeye, T., Poulikakos, L. D., Partl, M. N., Derome, D., & Carmeliet, J. (2018). CFD modeling of convective scalar transport in a macroporous material for drying applications. International Journal of Thermal Sciences, 123, 86-98. https://doi.org/10.1016/j.ijthermalsci.2017.09.010
Coupled CFD and building energy simulations for studying the impacts of building height topology and buoyancy on local urban microclimates
Allegrini, J., & Carmeliet, J. (2017). Coupled CFD and building energy simulations for studying the impacts of building height topology and buoyancy on local urban microclimates. Urban Climate, 21, 278-305. https://doi.org/10.1016/j.uclim.2017.07.005
The pollutant removal capacity of urban street canyons as quantified by the pollutant exchange velocity
Kubilay, A., Neophytou, M. K. A., Matsentides, S., Loizou, M., & Carmeliet, J. (2017). The pollutant removal capacity of urban street canyons as quantified by the pollutant exchange velocity. Urban Climate, 21, 136-153. https://doi.org/10.1016/j.uclim.2017.06.003
Cross-scale modelling of transpiration from stomata via the leaf boundary layer
Defraeye, T., Derome, D., Verboven, P., Carmeliet, J., & Nicolai, B. (2014). Cross-scale modelling of transpiration from stomata via the leaf boundary layer. Annals of Botany, 114(4), 711-723. https://doi.org/10.1093/aob/mct313
CFD simulations of the aerodynamic drag of two drafting cyclists
Blocken, B., Defraeye, T., Koninckx, E., Carmeliet, J., & Hespel, P. (2013). CFD simulations of the aerodynamic drag of two drafting cyclists. Computers and Fluids, 71, 435-445. https://doi.org/10.1016/j.compfluid.2012.11.012
Stomatal transpiration and droplet evaporation on leaf surfaces by a microscale modelling approach
Defraeye, T., Verboven, P., Derome, D., Carmeliet, J., & Nicolai, B. (2013). Stomatal transpiration and droplet evaporation on leaf surfaces by a microscale modelling approach. International Journal of Heat and Mass Transfer, 65, 180-191. https://doi.org/10.1016/j.ijheatmasstransfer.2013.05.075
Transpiration from stomata via the leaf boundary layer: a microscale modelling approach
Defraeye, T., Verboven, P., Carmeliet, J., Derome, D., & Nicolai, B. (2013). Transpiration from stomata via the leaf boundary layer: a microscale modelling approach. In R. Sievänen, E. Nikinmaa, C. Godin, A. Lintunen, & P. Nygren (Eds.), Proceedings of the 7th international conference on functional-structural plant models (pp. 109-111).
An adaptive temperature wall function for mixed convective flows at exterior surfaces of buildings in street canyons
Allegrini, J., Dorer, V., Defraeye, T., & Carmeliet, J. (2012). An adaptive temperature wall function for mixed convective flows at exterior surfaces of buildings in street canyons. Building and Environment, 49(1), 55-66. https://doi.org/10.1016/j.buildenv.2011.09.025
Analysis of convective heat transfer at building façades in street canyons and its influence on the predictions of space cooling demand in buildings
Allegrini, J., Dorer, V., & Carmeliet, J. (2012). Analysis of convective heat transfer at building façades in street canyons and its influence on the predictions of space cooling demand in buildings. Journal of Wind Engineering and Industrial Aerodynamics, 104-106, 464-473. https://doi.org/10.1016/j.jweia.2012.02.003
Analysis of convective heat and mass transfer coefficients for convective drying of a porous flat plate by conjugate modelling
Defraeye, T., Blocken, B., & Carmeliet, J. (2012). Analysis of convective heat and mass transfer coefficients for convective drying of a porous flat plate by conjugate modelling. International Journal of Heat and Mass Transfer, 55(1-3), 112-124. https://doi.org/10.1016/j.ijheatmasstransfer.2011.08.047
CFD simulation of heat transfer at surfaces of bluff bodies in turbulent boundary layers: evaluation of a forced-convective temperature wall function for mixed convection
Defraeye, T., Blocken, B., & Carmeliet, J. (2012). CFD simulation of heat transfer at surfaces of bluff bodies in turbulent boundary layers: evaluation of a forced-convective temperature wall function for mixed convection. Journal of Wind Engineering and Industrial Aerodynamics, 104-106, 439-446. https://doi.org/10.1016/j.jweia.2012.02.001
Convective heat and mass exchange at surfaces of horticultural products: a microscale CFD modelling approach
Defraeye, T., Herremans, E., Verboven, P., Carmeliet, J., & Nicolai, B. (2012). Convective heat and mass exchange at surfaces of horticultural products: a microscale CFD modelling approach. Agricultural and Forest Meteorology, 162-163, 71-84. https://doi.org/10.1016/j.agrformet.2012.04.010
Convective heat and mass transfer modelling at air–porous material interfaces: overview of existing methods and relevance
Defraeye, T., Blocken, B., Derome, D., Nicolai, B., & Carmeliet, J. (2012). Convective heat and mass transfer modelling at air–porous material interfaces: overview of existing methods and relevance. Chemical Engineering Science, 74(2), 49-58. https://doi.org/10.1016/j.ces.2012.02.032
Application of computational fluid dynamics in building performance simulation for the outdoor environment: an overview
Blocken, B., Stathopoulos, T., Carmeliet, J., & Hensen, J. L. M. (2011). Application of computational fluid dynamics in building performance simulation for the outdoor environment: an overview. Journal of Building Performance Simulation, 4(2), 157-184. https://doi.org/10.1080/19401493.2010.513740
Moisture phenomena in whole building performance prediction
Carmeliet, J., Blocken, B., Defraeye, T., & Derome, D. (2011). Moisture phenomena in whole building performance prediction. In J. L. M. Hensen & R. Lamberts (Eds.), Building performance simulation for design and operation (pp. 277-311). https://doi.org/10.4324/9780203891612-17
An adjusted temperature wall function for turbulent forced convective heat transfer for bluff bodies in the atmospheric boundary layer
Defraeye, T., Blocken, B., & Carmeliet, J. (2011). An adjusted temperature wall function for turbulent forced convective heat transfer for bluff bodies in the atmospheric boundary layer. Building and Environment, 46(11), 2130-2141. https://doi.org/10.1016/j.buildenv.2011.04.013
Computational fluid dynamics analysis of drag and convective heat transfer of individual body segments for different cyclist positions
Defraeye, T., Blocken, B., Koninckx, E., Hespel, P., & Carmeliet, J. (2011). Computational fluid dynamics analysis of drag and convective heat transfer of individual body segments for different cyclist positions. Journal of Biomechanics, 44(9), 1695-1701. https://doi.org/10.1016/j.jbiomech.2011.03.035
Comparison of calculation models for wind-driven rain deposition on building facades
Blocken, B., Dezsö, G., van Beeck, J., & Carmeliet, J. (2010). Comparison of calculation models for wind-driven rain deposition on building facades. Atmospheric Environment, 44(14), 1714-1725. https://doi.org/10.1016/j.atmosenv.2010.02.011
Computational fluid dynamics analysis of cyclist aerodynamics: performance of different turbulence-modelling and boundary-layer modelling approaches
Defraeye, T., Blocken, B., Koninckx, E., Hespel, P., & Carmeliet, J. (2010). Computational fluid dynamics analysis of cyclist aerodynamics: performance of different turbulence-modelling and boundary-layer modelling approaches. Journal of Biomechanics, 43(12), 2281-2287. https://doi.org/10.1016/j.jbiomech.2010.04.038