Szilágyi József
Budapesti Muszaki és Gazdaságtudományi Egyetem
H-index: 38
Europe-Hungary
Top articles of Szilágyi József
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Water-balance-based evapotranspiration for 56 large river basins: A benchmarking dataset for global terrestrial evapotranspiration modeling | Journal of Hydrology | Ning Ma Yongqiang Zhang Jozsef Szilagyi | 2024/2/1 |
Widening gap of land evaporation to reference evapotranspiration implies increasing vulnerability to droughts in Hungary | Periodica Polytechnica Civil Engineering | László Báder József Szilágyi | 2023/9/7 |
A thermodynamics-based versatile evapotranspiration estimation method of minimum data requirement for water resources investigations | Journal of Hydrology | Jozsef Szilagyi Richard D Crago | 2023/9/1 |
Comment on “Potential Evaporation and the Complementary Relationship” by Tu et al.(2023) | Water Resources Research | Jozsef Szilagyi | 2023/7 |
Freshwater paradox: will saving of water help in mitigating climate change or increase the instability of the hydrological cycle? | László Báder József Szilágyi Klaudia Négyesi | 2023/6/30 | |
Egy termodinamikai alapú, rugalmas, minimális adatigényű területi párolgásbecslő módszer bemutatása a hazai vízgazdálkodás számára | Hidrológiai Közlöny | József Szilágyi | 2023/11/27 |
What is the Priestley–Taylor wet-surface evaporation parameter? Testing four hypotheses | Hydrology and Earth System Sciences | Richard D Crago Jozsef Szilagyi Russell J Qualls | 2023/9/8 |
Power‐function expansion of the polynomial complementary relationship of evaporation | Water Resources Research | Jozsef Szilagyi Ning Ma Richard D Crago Russell J Qualls | 2022/11 |
What is the Priestley-Taylor Wet-Surface Evaporation Parameter? Testing Four Hypotheses | EGUsphere | Richard Crago Joszef Szilagyi Russell Qualls | 2022/10/24 |
Comment on “On the estimation of potential evaporation under wet and dry conditions” by Z. Tu and Y. Yang | Water Resources Research | Jozsef Szilagyi | 2022/10 |
Estimation of catchment response time using a new automated event-based approach | Journal of Hydrology | Eszter D Nagy Jozsef Szilagyi Peter Torma | 2022/10/1 |
Complementary Relationship for evaporation performance at different spatial and temporal scales | Journal of Hydrology | Richard D Crago Russell Qualls Jozsef Szilagyi | 2022/5/1 |
Power-function expansion of the nondimensional complementary relationship of evaporation: the emergence of dual attractors | Authorea Preprints | Jozsef Szilagyi Ning Ma Richard D Crago Russell J Qualls | 2022/11/22 |
Assessment of dimension-reduction and grouping methods for catchment response time estimation in Hungary | Journal of Hydrology: Regional Studies | Eszter D Nagy Jozsef Szilagyi Peter Torma | 2021/12/1 |
Calibration‐free complementary relationship estimates terrestrial evapotranspiration globally | Water Resources Research | Ning Ma Jozsef Szilagyi Yongqiang Zhang | 2021/9 |
Corrigendum to" On the thermodynamic foundations of the complementary relationship of evaporation"[J. Hydrol.(2021) 125916] | Journal of Hydrology | Jozsef Szilagyi | 2021/4 |
Reply to comment by S. Han and F. Tian on" A calibration-free formulation of the complementary relationship of evaporation for continental-scale hydrology" | Jozsef Szilagyi R Crago R Qualls | 2021 | |
Comparative analysis of catchment response times and their definitions using measured and re-analysis rainfall data | HydroCarpath International Conference: Processes, Patterns and Regimes in the Hydrology of the Carpathians: Coupling Experiments, Remote Sensing, Citizen | Eszter D Nagy József Szilágyi | 2020 |
On the thermodynamic foundations of the complementary relationship of evaporation | Journal of Hydrology | Jozsef Szilagyi | 2021 |
Reply to “Comment on ‘Two papers about the generalized complementary evaporation relationships by Crago et al.’” | Water Resources Research | R Crago J Szilagyi R Qualls | 2020/3 |