| Measurements of the thermal conductivities of some commonly used insulating materials after wetting F Szodrai, Á Lakatos Environ Eng Manag J 13 (11), 2881-2886, 2014 | 68 | 2014 |
| Analysis of the change of the specific heat loss coefficient of buildings resulted by the variation of the geometry and the moisture load F Szodrai, Á Lakatos, F Kalmár Energy 115, 820-829, 2016 | 19 | 2016 |
| Quantitative analysis of drag reduction methods for blunt shaped automobiles F Szodrai Applied Sciences 10 (12), 4313, 2020 | 18 | 2020 |
| Investigation of ventilation systems to improve air quality in the occupied zone in office buildings S Szekeres, A Kostyák, F Szodrai, I Csáky Buildings 12 (4), 493, 2022 | 16 | 2022 |
| Effect of the air motion on the heat transport behaviour of wall structures F Szodrai, Á Lakatos International Review of Applied Sciences and Engineering 8 (1), 67-73, 2017 | 15 | 2017 |
| Effect of wetting time in the sorption and in the thermal conductivity of the most commonly used structural materials F Szodrai, Á Lakatos Building Services Engineering Research and Technology 38 (4), 475-489, 2017 | 12 | 2017 |
| Simulations of the changes of the heating energy demand and transmission losses of buildings in Central European climate: Combination of experiments and simulations F Szodrai, A Lakatos International Review of Applied Sciences and Engineering 6 (2), 129-139, 2015 | 11 | 2015 |
| Local ventilation effectiveness dependence on the airflow pattern and temperature in the case of isothermal balanced ventilation T Kalmár, F Szodrai, F Kalmár Journal of Building Engineering 61, 105309, 2022 | 9 | 2022 |
| Experimental study of local effectiveness in the case of balanced mechanical ventilation in small offices T Kalmár, F Szodrai, F Kalmár Energy 244, 122619, 2022 | 9 | 2022 |
| Simulation of temperature distribution on the face skin in case of advanced personalized ventilation system F Szodrai, F Kalmár Energies 12 (7), 1185, 2019 | 9 | 2019 |
| Heat sink shape and topology optimization with pareto-vector length optimization for air cooling F Szodrai Energies 13 (7), 1661, 2020 | 8 | 2020 |
| Analysis of a wall structure thermal transmittance sensitivity in function of meteorological parameters at constant internal surface temperature F Szodrai AIP Conference Proceedings 2275 (1), 2020 | 5 | 2020 |
| Numerical Model Analysis of Myring–Savonius wind turbines M Saleh, F Szodrai | 4 | 2019 |
| Numerical model analysis of natural gas combustion burners A Ibraheem, F Szodrai | 3 | 2019 |
| Különböző éghajlati viszonyoknak kitett épületek fűtési energiafelhasználásának csökkentése hőszigeteléssel S Ferenc, L Ákos Energiagazdálkodás, 26, 2016 | 3 | 2016 |
| A review of large-eddy simulation cell size requirements for indoor flows F Szodrai Buildings 13 (9), 2159, 2023 | 2 | 2023 |
| Relationship analysis of wall transmittance and wind speed with numerical method F Szodrai International Review of Applied Sciences and Engineering 10 (2), 207-212, 2019 | 2 | 2019 |
| Effect of the Moisture in the Heat Storage Capacity of Building Structures F Szodrai, Á Lakatos Applied Mechanics and Materials 861, 320-326, 2017 | 2 | 2017 |
| Numerical Assessment of Side-Wind Effects on a Bus in Urban Conditions F Szodrai Applied Sciences 12 (11), 5688, 2022 | 1 | 2022 |
| Investigation of ventilation systems to improve air quality in the occupied zone in office buildings. Buildings 2022; 12: 493 S Szekeres, A Kostyák, F Szodrai, I Csáky s Note: MDPI stays neutral with regard to jurisdictional claims in published …, 2022 | 1 | 2022 |