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Energy-saving discharge needle shape for electrohydrodynamic airflow generation
Rubinetti, D., Iranshahi, K., Onwude, D. I., Nicolaï, B. M., Xie, L., & Defraeye, T. (2024). Energy-saving discharge needle shape for electrohydrodynamic airflow generation. Journal of Electrostatics, 127, 103876 (14 pp.). https://doi.org/10.1016/j.elstat.2023.103876
Ionic wind amplifier for energy-efficient air propulsion: prototype design, development, and evaluation
Rubinetti, D., Iranshahi, K., Onwude, D., Reymond, J., Rajabi, A., Xie, L., … Defraeye, T. (2024). Ionic wind amplifier for energy-efficient air propulsion: prototype design, development, and evaluation. Cleaner Engineering and Technology, 19, 100728 (21 pp.). https://doi.org/10.1016/j.clet.2024.100728
Development and validation of a CFD combustion model for natural gas engines operating with different piston bowls
Gianetti, G. G., Lucchini, T., D'Errico, G., Onorati, A., & Soltic, P. (2023). Development and validation of a CFD combustion model for natural gas engines operating with different piston bowls. Energies, 16(2), 971 (23 pp.). https://doi.org/10.3390/en16020971
URANS simulations of vehicle exhaust plumes with insight on remote emission sensing
Plogmann, J., Stauffer, C., Dimopoulos Eggenschwiler, P., & Jenny, P. (2023). URANS simulations of vehicle exhaust plumes with insight on remote emission sensing. Atmosphere, 14(3), 558 (25 pp.). https://doi.org/10.3390/atmos14030558
An in-silico proof-of-concept of electrohydrodynamic air amplifier for low-energy airflow generation
Rubinetti, D., Iranshahi, K., Onwude, D. I., Xie, L., Nicolaï, B., & Defraeye, T. (2023). An in-silico proof-of-concept of electrohydrodynamic air amplifier for low-energy airflow generation. Journal of Cleaner Production, 398, 136531 (16 pp.). https://doi.org/10.1016/j.jclepro.2023.136531
Remote sensing measurements and simulations for real driving emission characterization of vehicles
Plogmann, J., Gubser, A., & Dimopoulos Eggenschwiler, P. (2022). Remote sensing measurements and simulations for real driving emission characterization of vehicles. In M. Bargende, H. C. Reuss, & A. Wagner (Eds.), Proceedings. 22. internationales Stuttgarter Symposium. Automobil- und Motorentechnik. Band 2 (pp. 277-291). https://doi.org/10.1007/978-3-658-37011-4_23
The use of permeable and reflective pavements as a potential strategy for urban heat island mitigation
Ferrari, A., Kubilay, A., Derome, D., & Carmeliet, J. (2020). The use of permeable and reflective pavements as a potential strategy for urban heat island mitigation. Urban Climate, 31, 100534 (25 pp.). https://doi.org/10.1016/j.uclim.2019.100534
Numerical investigations of perfectly mixed condition at the inlet of free radical polymerization tubular microreactors of different geometries
Garg, D. K., Serra, C. A., Hoarau, Y., Parida, D., Bouquey, M., & Muller, R. (2020). Numerical investigations of perfectly mixed condition at the inlet of free radical polymerization tubular microreactors of different geometries. Macromolecular Theory and Simulations, 29(6), 2000030 (11 pp.). https://doi.org/10.1002/mats.202000030
Unveiling how ventilated packaging design and cold chain scenarios affect the cooling kinetics and fruit quality for each single citrus fruit in an entire pallet
Wu, W., Cronjé, P., Verboven, P., & Defraeye, T. (2019). Unveiling how ventilated packaging design and cold chain scenarios affect the cooling kinetics and fruit quality for each single citrus fruit in an entire pallet. Food Packaging and Shelf Life, 21, 100369 (13 pp.). https://doi.org/10.1016/j.fpsl.2019.100369
Simulations of local heat islands in Zürich with coupled CFD and building energy models
Allegrini, J., & Carmeliet, J. (2018). Simulations of local heat islands in Zürich with coupled CFD and building energy models. Urban Climate, 24, 340-359. https://doi.org/10.1016/j.uclim.2017.02.003
CFD modeling of combustion of a natural gas Light-Duty engine
Gianetti, G., Sforza, L., Lucchini, T., D’Errico, G., Soltic, P., Rojewski, J., & Hardy, G. (2018). CFD modeling of combustion of a natural gas Light-Duty engine. In U. Desideri, A. Franco, P. di Marco, F. Fantozzi, M. Antonelli, & L. Ferrari (Eds.), Energy procedia: Vol. 148. ATI 2018 - 73rd conference of the Italian Thermal Machines Engineering Association (pp. 954-961). https://doi.org/10.1016/j.egypro.2018.08.067
Influence of vegetation on pedestrian thermal comfort in a street canyon
Manickathan, L., Kubilay, A., Defraeye, T., Allegrini, J., Derome, D., & Carmeliet, J. (2018). Influence of vegetation on pedestrian thermal comfort in a street canyon. In P. Mukhopadhyaya (Ed.), Proceedings of 1st international conference on new horizons in green civil engineering (NHICE-01) (p. (4 pp.). University of Victoria.
Integrated vegetation model for studying the cooling potential of trees in urban street canyons
Manickathan, L., Kubilay, A., Defraeye, T., Allegrini, J., Derome, D., & Carmeliet, J. (2018). Integrated vegetation model for studying the cooling potential of trees in urban street canyons (p. (6 pp.). Presented at the 7th international building physics conference, IBPC2018. .
Parametric study of the influence of environmental factors and tree properties on the transpirative cooling effect of trees
Manickathan, L., Defraeye, T., Allegrini, J., Derome, D., & Carmeliet, J. (2018). Parametric study of the influence of environmental factors and tree properties on the transpirative cooling effect of trees. Agricultural and Forest Meteorology, 248, 259-274. https://doi.org/10.1016/j.agrformet.2017.10.014
Numerical analysis of the flow and heat transfer in cylindrical clothing microclimates - influence of the microclimate thickness ratio
Santos, M. S., Oliveira, D., Campos, J. B. L. M., & Mayor, T. S. (2018). Numerical analysis of the flow and heat transfer in cylindrical clothing microclimates - influence of the microclimate thickness ratio. International Journal of Heat and Mass Transfer, 117, 71-79. https://doi.org/10.1016/j.ijheatmasstransfer.2017.09.102
A virtual cold chain method to evaluate cooling heterogeneity, package designs and cold chain scenarios for fresh fruit
Wu, W., & Defraeye, T. (2018). A virtual cold chain method to evaluate cooling heterogeneity, package designs and cold chain scenarios for fresh fruit. In U. L. Opara, O. A. Fawole, A. A. Tsige, L. de Kock, E. W. Hoffman, & E. Reinten (Eds.), Acta horticulturae: Vol. 1201. VII international conference on managing quality in chains (MQUIC2017) and II international symposium on ornamentals in association with XIII international protea research symposium (pp. 289-296). https://doi.org/10.17660/ActaHortic.2018.1201.39
Virtual cold chain method to model the postharvest temperature history and quality evolution of fresh fruit – A case study for citrus fruit packed in a single carton
Wu, W., Cronjé, P., Nicolai, B., Verboven, P., Opara, U. L., & Defraeye, T. (2018). Virtual cold chain method to model the postharvest temperature history and quality evolution of fresh fruit – A case study for citrus fruit packed in a single carton. Computers and Electronics in Agriculture, 144, 199-208. https://doi.org/10.1016/j.compag.2017.11.034
Determination of optimal parameters for wind driven rain CFD simulation for building design in the tropics
Raghavan, V. S. G., Joo, P. H., Pao-Hsiung, C., Kubilay, A., & Allegrini, J. (2017). Determination of optimal parameters for wind driven rain CFD simulation for building design in the tropics. In L. Ding, F. Fiorito, & P. Osmond (Eds.), Procedia engineering: Vol. 180. International high-performance built environment conference – a sustainable built environment conference 2016 series (SBE16), iHBE 2016 (pp. 1345-1354). https://doi.org/10.1016/j.proeng.2017.04.297
Prediction of the surface temperature of building-integrated photovoltaics: development of a high accuracy correlation using computational fluid dynamics
Zhang, R., Mirzaei, P. A., & Carmeliet, J. (2017). Prediction of the surface temperature of building-integrated photovoltaics: development of a high accuracy correlation using computational fluid dynamics. Solar Energy, 147, 151-163. https://doi.org/10.1016/j.solener.2017.03.023
CFD modeling of catalytic reactions in open-cell foam substrates
Della Torre, A., Lucci, F., Montenegro, G., Onorati, A., Dimopoulos Eggenschwiler, P., Tronconi, E., & Groppi, G. (2016). CFD modeling of catalytic reactions in open-cell foam substrates. Computers and Chemical Engineering, 92, 55-63. https://doi.org/10.1016/j.compchemeng.2016.04.031