direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Inhalt des Dokuments

Publikationen

BibTex-ListeAlle

<< zurück [1]
vor >> [34]

Ö

Özgen, Ilhan (2017). Coarse grid approaches for the shallow water model [38]. Technische Universität Berlin


Özgen, I., Liang, D. & Hinkelmann, R. (2018). A grid convergence study for the integral porosity shallow water model on unstructured triangular meshes [39]. G. La Loggia, G. Freni, V.Puleo and M. De Marchis (eds.), HIC2018 (EPiCSeriesinEngineering), 2472 - 2478.


Özgen, I. (2017). A coarse grid approach-based model chain for fast rainfall-runoff predictions in natural and urban areas [40]. 37th IAHR World Congress, Kuala Lumpur, Malaysia


Özgen, I., Zhao, J., Amann, F. & Hinkelmann, R. (2017). Applying object-oriented design concepts for the coupled numerical simulation of shallow water flow and associated processes [41]. 37th IAHR World Congress, Kuala Lumpur, Malaysia


Özgen, I., Abily, M., Gourbesville, P., Zhao, J., Liang, D. & Hinkelmann, R. (2017). Towards district scale flood simulations using conventional and anisotropic porosity shallow water models with high-resolution topographic information [42]. SimHydro Conference 2017, Nice, France


Özgen, I., Zhao, J., Liang, D. & Hinkelmann, R. (2017). Wave propagation speeds and source term influence in single and integral porosity shallow water equations [43]. Water Science and Engineering, in press.


Özgen,I., Teuber,K., Simons,F., Liang,D. & Hinkelmann,R. (2015). Upscaling the shallow water model with a novel roughness formulation [44]. Environmental Earth Sciences. Springer Berlin Heidelberg, 7371–7386.

Link zur Originalpublikation [45]

Özgen, I., Liang, D. & Hinkelmann, R. (2016). Shallow water equations with depth-dependent anisotropic porosity for subgrid-scale topography [46]. Applied Mathematical Modelling, 7447-7473.

Link zur Originalpublikation [47]

Özgen, I., Zhao, J., Liang, D. & Hinkelmann, R. (2016). Urban flood modeling using shallow water equations with depth-dependent anisotropic porosity [48]. Journal of Hydrology, 1165–1184.

Link zur Originalpublikation [49]

Özgen, I., Teuber, K., Liang, D. & Hinkelmann, R. (2015). Surface roughness parameterization to account for subgrid-scale topography in shallow water modeling [50]. E-proceedings of the 36th IAHR World Congress

Link zur Publikation [51]

Özgen, I., Liang, D., Om, J. & Hinkelmann, R. (2016). Shallow water model with anisotropic porosity: A case study of dam-break flow in an idealized city [52]. 12th International Conference on Hydroinformatics


Özgen, I., Zhao, J., Liang, D. & Hinkelmann, R. (2016). Comparison of an isotropic porosity model with an anisotropic porosity model [53]. Nordic Water Network Conference 2016


Özgen,I., Seemann,S., Candeias,A.L., Koch,H., Simons,F. & Hinkelmann,R. (2013). Simulation of hydraulic interaction between Icó-Mandantes bay and São Francisco river, Brazil [54].


Özgen-Xian, Ilhan and Xia, Xilin and Liang, Qiuhua and Hinkelmann, Reinhard and Liang, Dongfang and Hou, Jingming (2021). Innovations towards the next generation of shallow flow models [55]. Advances in Water Resources, Elsevier. Loughborough University, 1 - 3.

Link zur Publikation [56]

P

Pacheco Fernandez, Micaela and Dixit, Abhinav and Teuber, Katharina and Hinkelmann, Reinhard and Barjenbruch, Matthias (2020). Validation of air phase flow, mass transport and mass transfer in a sewer pipe [57]. First International Conference on Urban Water Interfaces (UWI). [Technische Universität Berlin, Urban Water Interfaces];, 59.

Link zur Publikation [58]

<< zurück [59]
vor >> [92]
------ Links: ------

Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe

Copyright TU Berlin 2008