Water balance analysis for the Tonle Sap Lake–floodplain system M Kummu, S Tes, S Yin, P Adamson, J Józsa, J Koponen, J Richey, ... Hydrological Processes 28 (4), 1722-1733, 2014 | 230 | 2014 |
New findings about the complementary relationship-based evaporation estimation methods J Szilagyi, J Jozsa Journal of Hydrology 354 (1-4), 171-186, 2008 | 113 | 2008 |
Mapping mean annual groundwater recharge in the Nebraska Sand Hills, USA J Szilagyi, VA Zlotnik, JB Gates, J Jozsa | 105 | 2012 |
Influence of secondary settling tank performance on suspended solids mass balance in activated sludge systems M Patziger, H Kainz, M Hunze, J Józsa Water research 46 (7), 2415-2424, 2012 | 69 | 2012 |
Flow analysis of a river confluence with field measurements and RANS model with nested grid approach S Baranya, NRB Olsen, J Józsa River research and applications 31 (1), 28-41, 2015 | 63 | 2015 |
Adaptive quadtree model of shallow-flow hydrodynamics AGL Borthwick, S Cruz León, J Jozsa Journal of Hydraulic Research 39 (4), 413-424, 2001 | 54 | 2001 |
MODIS‐aided statewide net groundwater‐recharge estimation in Nebraska J Szilagyi, J Jozsa Groundwater 51 (5), 735-744, 2013 | 52 | 2013 |
Net recharge vs. depth to groundwater relationship in the Platte River Valley of Nebraska, United States J Szilagyi, VA Zlotnik, J Jozsa Groundwater 51 (6), 945-951, 2013 | 49 | 2013 |
The shallow flow equations solved on adaptive quadtree grids AGL Borthwick, S Cruz Leon, J Józsa International Journal for Numerical Methods in Fluids 37 (6), 691-719, 2001 | 47 | 2001 |
Estimation of suspended sediment concentrations with ADCP in Danube River S Baranya, J Józsa Journal of Hydrology and Hydromechanics 61 (3), 232-240, 2013 | 46 | 2013 |
Solution-adaptivity in modelling complex shallow flows T Krámer, J Józsa Computers & Fluids 36 (3), 562-577, 2007 | 45 | 2007 |
Modified advection-aridity model of evapotranspiration J Szilagyi, MT Hobbins, J Jozsa Journal of Hydrologic Engineering 14 (6), 569-574, 2009 | 44 | 2009 |
Numerical simulation of internal boundary-layer development and comparison with atmospheric data J Józsa, B Milici, E Napoli Boundary-Layer Meteorology 123, 159-175, 2007 | 41 | 2007 |
Remote-sensing based groundwater recharge estimates in the Danube-Tisza sand plateau region of Hungary J Szilágyi, Á Kovács, J Józsa Journal of Hydrology and Hydromechanics 60 (1), 64-72, 2012 | 40 | 2012 |
Particle tracking velocimetry (PTV) and its application to analyse free surface flows in laboratory scale models B Sokoray-Varga, J Józsa Periodica Polytechnica Civil Engineering 52 (2), 63-71, 2008 | 39 | 2008 |
Benchmarking large-scale evapotranspiration estimates: A perspective from a calibration-free complementary relationship approach and FLUXCOM N Ma, J Szilagyi, J Jozsa Journal of Hydrology 590, 125221, 2020 | 37 | 2020 |
Investigation of the effects of ship induced waves on the littoral zone with field measurements and CFD modeling G Fleit, S Baranya, N Rüther, H Bihs, T Krámer, J Józsa Water 8 (7), 300, 2016 | 34 | 2016 |
A calibration-free evapotranspiration mapping (CREMAP) technique J Szilágyi, A Kovacs, J Jozsa Evapotranspiration, 2011 | 32 | 2011 |
Mixing properties of a shallow basin due to wind-induced chaotic flow M Pattantyús-Ábrahám, T Tél, T Krámer, J Józsa Advances in Water Resources 31 (3), 525-534, 2008 | 31 | 2008 |
Evapotranspiration trends (1979–2015) in the Central Valley of California, USA: Contrasting tendencies during 1981–2007 J Szilagyi, J Jozsa Water Resources Research 54 (8), 5620-5635, 2018 | 27 | 2018 |