direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Inhalt des Dokuments

Conferences contributions etc.

vor >> [12]

2021

Rodríguez-Ramos, J. A., Borton, M. A., Daly, R.A., Mueller, B. M.; Schöpflin, L., Shaffer, M., Danczak, R. E.,Schulz, H., Goldman, A. E., Lewandowski, J., Roux, S., Stegen, J. C. and Wrighton, K. C. (2021). Microscopic time travelers: A finely tuned, time-resolved analysis of viral and microbial communities in the Erpe river. New Orleans [16].


Heinrich, L., Hupfer, M., (2021). The potential of sulphate reduction to impede a long term effect of iron amendments on sedimentary phosphorus retention [17].


Matta, E., Zounemat-Kermani, M., Cominola, A. and Hinkelmann., R. (2021). Machine learning in the hydro-environment: A brief review of recent applications [18]. IAHR AIRH, 681-682.


2020

Mueller, B. M., Schulz, H., Danczak, R. E., Putschew, A., Lewandowski, J. (2020). Simultaneous attenuation of trace organic compounds and dissolved organic matter in its hyporheic zone? [19].


Dixit, A., Teuber, K., Stephan, D., Barjenbruch, M., & Hinkelmann, R. (2020). CFD model development and sensitivity analysis for water-air flow in a close conduit sewer pipe. [20].


Kuhlemann, L.-M., Tetzlaff, D., Kleinschmit, B., & Soulsby, C. (2020). Using stable isotopes to quantify ecohydrological flux dynamics at the soil-plant-atmosphere interface in urban green spaces [21].

Link zur Originalpublikation [22]

Heinrich, L., Welteke, N., Hupfer, M. (2020). Sulfur prevented the continuous effect of an iron amendment on sedimentary phosphorus retention: A case study at Lake Plötzensee in Berlin [23].

Link zur Originalpublikation [24]

Friedland, G., Grüneberg, B. & Hupfer, M. (2020). Sedimentary signatures reveal transition between mining and urban impacts along river Spree (NE Germany) [25].

Link zur Originalpublikation [26]

Mueller, B. M., Schulz, H., Putschew, A., Lewandowski, J. (2020). Attenuation of dissolved organic matter and trace organic compounds in the hyporheic zone of an urban river [27].

Link zur Originalpublikation [28]

Mayerhofer, M. & Hellweger, F. (2020). Modeling of Cyanobacteria at Lake Müggelsee [29].

Link zur Originalpublikation [30]

Matta, Elena and Cominola, Andrea and Zounemat-Kermani and Hinkelmann, Reinhard (2020). A review of recent applications of neurocomputing methods in urban hydraulics and hydrology [31]. First International Conference on Urban Water Interfaces (UWI). [Technische Universität Berlin, Urban Water Interfaces];, 44.

Link zur Publikation [32]

Broecker, T., Gollo, V., Fox, A., Lewandowski, J., Nützmann, G., Arnon, S. & Hinkelmann, R. (2020). Integral modelling approach for tracer transport in the hyporheic zone under neutral, losing and gaining streamflow conditions [33].

Link zur Originalpublikation [34]

Matta, E., Cominola, A., Zounemat-Kermani,M. & Hinkelmann, R. (2020). A review of recent applications of neurocomputing methods in urban hydraulics and hydrolog [35].

Link zur Originalpublikation [36]

Hinkelmann, R., Kleinschmit, B., Porst, G., Haacke, N. & Pacheco Fernández, M. (2020). Summary of Abstracts [37].

Link zur Originalpublikation [38]

Gillefalk, M., Tetzlaff, D., Hinkelmann, R., Kuhlemann, L-M., Smith, A., Meier, F., Soulsby, C. (2020). Quantifying the effects of urban vegetation on water partitioning in complex cityscapes: the potential of isotope-based ecohydrological models [39].

Link zur Originalpublikation [40]

vor >> [52]
------ Links: ------

Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe

Copyright TU Berlin 2008