Veröffentlichungen in Zeitschriften und Konferenzen
Reisenbüchler, M.; Bui, M.D.; Rutschmann, P. (2021). Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River. Water. 13, 818. https://doi.org/10.3390/w13060818.
Almatarneh, M. H.; Alnemrat, I. Y.; Omeir, R. A.; Pratt, L. M.; Luu, T. X. T.; Bui, M. D.; Hilaire, Di. S. (2020). Mechanistic Investigation of the Pyrolysis of Brown Grease. Journal of Chemistry, Vol. 2020, pp. 1-11. DOI: https://doi.org/10.1155%2F2020%2F8844225.
Bauer, A.; Engels, K.; Strobl, T. (2020). Rosshaupten dam rehabilitation: a project in challenging circumstances. International Journal on Hydropower & Dams. 27 (5), pp. 56-61. https://www.hydropower-dams.com/articles/rosshaupten-dam-rehabilitation-a-project-in-challenging-circumstances.
Bauer, A.; Strobl, T. (2020). Staudamm Roßhaupten ‒ vom auffälligen Messwert zur Großbaustelle. WasserWirtschaft. 110 (9), pp. 34-38, DOI: https://doi.org/10.1007/s35147-020-0426-7.
Bui, V. H.; Bui, M. D.; Rutschmann, P. (2020). The Prediction of Fine Sediment Distribution in Gravel-Bed Rivers Using a Combination of DEM and FNN. Water. 12 (6), 1515. DOI: https://doi.org/10.3390/w12061515.
Bui, V.; Bui, M. D. (2020). Virtual Falls: Application of VR in Fall Detection. Proceedings of the 2020 4th International Conference on Virtual and Augmented Reality Simulations. Sydney, NSW Australia, pp. 64-69. DOI: https://doi.org/10.1145/3385378.3385388.
Dallmeier, A.; Reisenbüchler, M.; Bui, M. D.; Rutschmann, P. (2020). Numerical Modelling of Sediment Transport at Weirs. Online proceedings of the XXVIIth TELEMAC-MASCARET User Conference. Antwerp, Belgium, pp. 9-14. https://tuc2020.org/Proceedings_TUC_2020_v1.0.pdf.
Geiger, F.; Cuchet, M.; Rutschmann, P. (2020). Zur Berechnung der Schädigungsraten von Fischen bei der Turbinenpassage. WasserWirtschaft. 110 (12), pp. 33-40. WasserWirtschaft, Vol. 110, 2020, Nr. 12, S. 33-40_Geiger-Cuchet-Rutschmann.
Geiger, F.; Cuchet, M.; Rutschmann, P. (2020). Zur Verringerung von Fischschäden in Turbinen mittels Verhaltensbeeinflussung. WasserWirtschaft. 110 (12), pp. 41-45. WasserWirtschaft, Vol. 110, 2020, Nr. 12, S. 41-45_Geiger-Cuchet-Rutschmann.
Harby, A.; Berg, L.; Rutschmann, P. (2020). Innovative solutions and new tools for fish-friendly hydropower. IAHR HydroLink. 37 (3), pp. 86-89. https://static.iahr.org/upload/file/20201007/1602059692324569.pdf.
Kaveh, K.; Kaveh, H.; Bui, M. D.; Rutschmann, P. (2020). Long Short-Term Memory for Predicting Daily Suspended Sediment Concentration. Engineering with Computers. 36, 15 pages. DOI: https://doi.org/10.1007/s00366-019-00921-y.
Reisenbüchler, M.; Bui, M. D.; Skublics, D.; Rutschmann, P. (2020). Enhancement of a numerical model system for reliably predicting morphological development in the Saalach River. International Journal of River Basin Management. 18 (3), pp. 335-347. DOI: https://doi.org/10.1080/15715124.2019.1628034.
Reisenbüchler, M.; Bui, M. D.; Rutschmann, P.; Skublics, D. (2020). Sediment Management at Run-of-River Reservoirs Using Numerical Modelling. Water. 12 (1), 249. DOI: https://doi.org/10.3390/w12010249.
Reisenbüchler, M.; Skiba, H.; Schwaller, G.; Außendorf, M. (2020). DanubeSediment: Wie steht es um den Sedimenthaushalt der Donau?. Korrespondenz Wasserwirtschaft. 13 (12), pp. 701-707. DOI: 10.3243/kwe2020.12.004.
Rutschmann, P. (2020). Von Propheten und fehlgeleiteten Fischen. WasserWirtschaft. 110 (12), p. 3. WasserWirtschaft, Vol. 110, 2020, Nr. 12, S. 3_Prof. Rutschmann_Kommentar.
Sepp, A.; Hackl, C.; Rutschmann, P. (2020). Erstes Schachtkraftwerk an der Loisach in Großweil am Netz. WasserWirtschaft. 110 (9), pp. 60-62. DOI: https://doi.org/10.1007/s35147-020-0441-8.
Stamou, A.; Noutsopoulos, C.; Kuhlmann, A.; Rutschmann, P. (2020). How can we link teaching with research in our engineering courses? The case of an ecological modelling course in two European Universities. European Journal of Engineering Education. 45 (4), pp. 597-613. DOI: https://doi.org/10.1080/03043797.2019.1620174.
Stamou, A.-T.; Rutschmann, P. (2020). Optimization of water use based on the water-energy-food nexus concept: Application to the long-term development scenario of the Upper Blue Nile River. Water Utility Journal. 25, pp. 1-13. http://www.ewra.net/wuj/pdf/WUJ_2020_25_01.pdf.
Zunic, F.; Strobl, T. (2020). Wasserbau. Wasserwesen, Siedlungswasserwirtschaft und Abfalltechnik. Technik – Organisation – Wirtschaftlichkeit. S. 123-165. DOI: https://doi.org/10.1007/978-3-658-29502-8_38.
Aguirre Iñiguez, D. V.; Bui, M. D.; Giehl, S.; Reisenbüchler, M.; Rutschmann, P. (2019). Development of a hydro-morphodynamic Model for Sediment Management in the Rosenheim Reservoir. Proc. of the XXVIth TELEMAC User Conference. Toulouse, France. http://www.cerfacs.fr/tuc2019-repo/Slides/TUC2019_Session6/TUC_2019_AGUIRRE.pdf.
Bauer, A.; Kleist, F.; Strobl, T. (2019). Eine neue Dichtung für die Talsperre Roßhaupten. WasserWirtschaft. 109 (5), pp. 122-125. DOI: https://doi.org/10.1007%2Fs35147-019-0065-z.
Bui, V. H.; Bui, M. D.; Rutschmann, P. (2019). Combination of Discrete Element Method and Artificial Neural Network for Predicting Porosity of Gravel-Bed River. Water. 11 (7), 1461. DOI: https://doi.org/10.3390/w11071461.
Bui, V. H.; Bui, M. D.; Rutschmann, P. (2019). Advanced Numerical Modeling of Sediment Transport in Gravel-Bed Rivers. Water. 11 (3), 550. DOI: https://doi.org/10.3390/w11030550.
Conevski, S.; Guererro, M.; Ruther, N.; Rennie, C. D. (2019). Laboratory Investigation of Apparent Bedload Velocity Measured by ADCPs under Different Transport Conditions. ASCE Journal of Hydraulic Engineering. 145 (11), 04019036. DOI: https://doi.org/10.1061/(ASCE)HY.1943-7900.0001632.
Dang, N. M.; Duong, T. A.; Dang, T. D. (2019). ANN optimized by PSO and Firefly algorithms for predicting scour depths around bridge piers. Engineering with Computers. 37, pp. 293–303. DOI: https://doi.org/10.1007/s00366-019-00824-y.
Fontin, M.; Alapfy, B. (2019). "Missing Factfulness” – auch im Gewässerschutz. WasserWirtschaft. 109 (9), pp. 24-27. DOI: https://doi.org/10.1007/s35147-019-0220-6.
Geiger, F.; Rutschmann, P.; Cuchet, M. (2019). Assessing and mitigating fish damage during turbine passage. HYDRO 2019. International Conference and Exhibition. Porto, Portugal. www.hydropower-dams.com/hydro-2019.
Geiger, F.; Sepp, A.; Cuchet, M.; Rutschmann, P. (2019). The TUM Hydro Shaft Power Plant – An Innovative Concept for efficient and ecological Hydropower. Hydro Energy & Sustainability Conference (HydroES 2019). Grenoble, France. http://www.shf-hydro.org/225-1-hydroes_2019_what_future_for_hydropower_in_france_and_in_europe-72.html.
Giehl, S.; Rutschmann, P. (2019). The effect of river training since the year 1800 along an alpine river by the help of two-dimensional hydrodynamic modeling. Proceedings of the 38th IAHR World Congress. Panamá, República de Panamá, pp. 4186-4193, DOI: 10.3850/38WC092019-1852.
Giehl, S. (2019). Optimierung der Wirkung gesteuerter Flutpolder am bayrischen Inn mithilfe 2D-HN-Modellierung. 21. Treffen junger Wissenschaftlerinnen und Wissenschaftler deutschsprachiger Wasserbauinstitute. BAW, Karlsruhe, pp. 69-74.
https://izw.baw.de/publikationen/kolloquien/0/11_Giehl_Optimierung%20der%20Wirkung_.pdf.
Gkesouli, A.; Stamou, A. (2019). A CFD modeling procedure to assess the effect of wind in settling tanks. Journal of Hydroinformatics. 21 (1), pp. 123-135. DOI: https://doi.org/10.2166/hydro.2018.048.
Kaveh, K.; Bui, M. D.; Rutschmann, P. (2019). Integration of artificial neural networks into TELEMAC-MASCARET system, new concepts for hydromorphodynamic modeling. Advances in Engineering Software. 132, pp. 18-28. DOI: https://doi.org/10.1016/j.advengsoft.2019.03.011.
Kaveh, K.; Reisenbüchler, M.; Lamichhane, S.; Liepert, T.; Nguyen, N. D.; Bui, M. D.; Rutschmann, P. (2019). A Comparative Study of Comprehensive Modeling Systems for Sediment Transport in a Curved Open Channel. Water. 11 (9), 1779. DOI: https://doi.org/10.3390%2Fw11091779.
Nguyen, N. D.; Liepert, T.; Reisenbüchler, M., Kaveh, K.; Bui, M. D.; Rutschmann, P. (2019). An Efficient Implementation of Parallelization in the Domain Decomposition of TELEMAC. Proc. of the XXVIth TELEMAC User Conference. Toulouse, France. http://www.cerfacs.fr/tuc2019-repo/Slides/TUC2019_Session5/DzungNguyenTUM-TUC-2019-UPDATED.pdf.
Reisenbüchler, M.; Bui, M. D.; Skublics, D.; Rutschmann, P. (2019). Enhancement of a numerical model system for reliably predicting morphological development in the Saalach River. International Journal of River Basin Management. 18 (3), pp. 335-347. DOI: 10.1080/15715124.2019.1628034.
Reisenbüchler, M.; Bui, M. D.; Skublics, D.; Rutschmann, P. (2019). An integrated approach for investigating the correlation between floods and river morphology: A case study of the Saalach River, Germany. Science of the Total Environment. 647, pp. 814-826. DOI: https://doi.org/10.1016/j.scitotenv.2018.08.018.
Rutschmann, P. (2019). The TUM Hydro Shaft Power Plant Innovation. Visionaries and Unsung Heroes: Engineers – Design – Tomorrow. pp. 124–125. DOI: https://doi.org/10.11129/9783955534615-031.
Rutschmann, P. (2019). Reinforcing Reservoir Dams: the Sylvenstein Dam Pilot Project. Visionaries and Unsung Heroes: Engineers – Design – Tomorrow. pp. 114–115. DOI: https://doi.org/10.11129/9783955534615-028.
Rutschmann, P. (2019). Challenges in the Discourse Between Technology and Society. Visionaries and Unsung Heroes: Engineers – Design – Tomorrow. pp. 116–118. DOI: https://doi.org/10.11129/9783955534615-029.
Schäfer, S.; Schlagenhauser, M.; Rutschmann, P. (2019). Optical measurement method for quantifying sediment transport in physical experiments. Proceedings of the 38th IAHR World Congress. Panamá, República de Panamá, pp. 783-792. DOI: 10.3850/38WC092019-0409.
Schäfer, S.; Fuchs, Y. (2019). Transportverhalten von Feinsand und Leichtgewichtsgranulat im Natur-Modell-Vergleich. 21. Treffen junger Wissenschaftlerinnen und Wissenschaftler deutschsprachiger Wasserbauinstitute. BAW, Karlsruhe, pp. 171-176. https://izw.baw.de/publikationen/kolloquien/0/27_Sch%C3%A4fer-Fuchs_Transportverhalten%20von%20Feinsand_.pdf.
Stamou, A.; Noutsopoulos, C.; Kuhlmann, A.; Rutschmann, P. (2019). How can we link teaching with research in our engineering courses? The case of an ecological modelling course in two European Universities. European Journal of Engineering Education. 44 (3), pp. 1-17. DOI: https://doi.org/10.1080/03043797.2019.1620174.
Strobl, T. (2019). Wasserbau im Einklang mit der Natur im neuen Fränkischen Seenland. WasserWirtschaft. 109 (5), pp. 22-25. DOI: https://doi.org/10.1007/s35147-019-0032-8.
Tarar, Z. R.; Ahmad, S. R.; Ahmad, I.; Hasson, S.; Khan, Z. M.; Washakh, R. M. A.; Ateeq-Ur-Rehman, S.; Bui, M. D. (2019). Effect of Sediment Load Boundary Conditions in Predicting Sediment Delta of Tarbela Reservoir in Pakistan. Water. 11 (8), 1716. DOI: https://doi.org/10.3390/w11081716.
Tran Anh, D.; Hoang, L. P.; Bui, M. D.; Rutschmann, P. (2019). Modelling Seasonal Flows Alteration in the Vietnamese Mekong Delta Under Upstream Discharge Changes, Rainfall Changes and Sea Level Rise. International Journal of River Basin Management. 17 (4), pp. 435–449. DOI: https://doi.org/10.1080/15715124.2018.1505735.
Tran Anh, D.; Duc Dang, T.; Pham Van, S. (2019). Improved Rainfall Prediction Using Combined Pre-Processing Methods and Feed-Forward Neural Networks. J – Multidisciplinary Scientific Journal. 2 (1), pp. 65-83. DOI: https://doi.org/10.3390/j2010006.
Tran Anh, D.; Van, S. P.; Dang, T. D.; Hoang, L. P. (2019). Downscaling rainfall using deep learning long short‐term memory and feedforward neural network. International Journal of Climatology. 39 (10), pp. 4170-4188. DOI: https://doi.org/10.1002/joc.6066.
Aktaş, S.; Schwarzwälder, K.; Haas, C.; Thumser, P.; Rutschmann, P. (2018). Variantenstudie zur Implementierung eines Fischabstiegskonzepts an einer Wasserkraftanlage mit bestehendem Fischaufstieg. Wasserbau-Symposium Graz. pp. 161-168. ISBN 978-3-85125-638-3.
Ateeq Ur Rehman, S.; Bui, M. D.; Rutschmann, P. (2018). Improvement of predictive reality of a hydromorphodynamic model in the Tarbela reservoir. Wasserbau-Symposium Graz. pp. 403-408. ISBN 978-3-85125-638-3.
Ateeq Ur Rehman, S.; Bui, M. D.; Hasson, S.; Rutschmann, P. (2018). An Innovative Approach to Minimizing Uncertainty in Sediment Load Boundary Conditions for Modelling Sedimentation in Reservoirs. Water, 10, 1411. https://doi.org/10.3390/w10101411.
Ateeq Ur Rehman, S.; Bui, M. D.; Rutschmann, P. (2018). Variability and Trend Detection in the Sediment Load of the Upper Indus River. Water. 10, 16. http://dx.doi.org/10.3390/w10010016.
Bui, V. H.; Bui, M. D.; Rutschmann, P. (2018). A new numerical model for sediment transport in gravel-bed rivers. Proc. of the 5th IAHR-Europe Congress, Trento, Italy, pp. 723-725, doi:10.3850/978-981-11-2731-1_189-cd
Bui, V. H.; Bui, M. D.; Rutschmann, P. (2018). Modeling infiltration process of fine sediment in gravel bed river. Wasserbau-Symposium Graz. pp. 417-424. ISBN 978-3-85125-638-3.
Cuchet, M.; Geiger, F.; Rutschmann, P. (2018). Zum Fischschutz und Fischabstieg an geneigten und horizontalen Rechen. Wasserwirtschaft, 108, 9. ISSN: 0043-0978.
Duong, T. A.; Bui, M. D.; Rutschmann, P. (2018). Data pre-processing combined with Artificial Neural Network to improve the performance of time series modelling. Proc. of the 5th IAHR-Europe Congress, Trento, Italy, pp. 659-660. doi:10.3850/978-981-11-2731-1_120-cd.
Duong, T. A.; Bui, M. D.; Rutschmann, P. (2018). A comparative study of three different models to predict monthly rainfall in Ca Mau, Vietnam. Wasserbau-Symposium Graz. pp. 425-432. ISBN 978-3-85125-638-3.
Duong, T. A.; Hoang, L. P.; Bui, M. D.; Rutschmann, P. (2018). Modelling seasonal flows alteration in the Vietnamese Mekong Delta under upstream discharge changes, rainfall changes and sea level rise. International Journal of River Basin Management. published online. pp. 435-449. https://doi.org/10.1080/15715124.2018.1505735.
Duong, T. A.; Hoang, L. P.; Bui, M. D.; Rutschmann, P. (2018). Simulating Future Flows and Salinity Intrusion Using Combined One- and Two-Dimensional Hydrodynamic Modelling – The Case of Hau River, Vietnamese Mekong Delta. Water. 10 (7), 897. https://doi.org/10.3390/w10070897.
Eberl, F.; Mexis, C.; Muckenthaler, P.; Strobl, T. (2018). Sanierung und Ertüchtigung der Stauanlage Kibling. [Rehabilitation and upgrading oft he Kibling Dam]. WasserWirtschaft. 108, 6. pp. 25-29. ISSN: 0043-0978.
Geiger, F.; Roenneberg, S.; Rutschmann, P.; Cuchet, M. (2018). Improving Fish Upstream Passage Findability at Hydropower Plants considering Turbine Operation related Turbulence and Flow Distribution. Proc. of the 5th IAHR-Europe Congress, Trento, Italy, pp. 769-770. doi:10.3850/978-981-11-2731-1_320-cd.
Geiger, F.; Cuchet, M.; Rutschmann, P. (2018). Zur Prognose von Schädigungsraten beim Fischabstieg an Wasserkraftanlagen. Wasserbau-Symposium Graz. pp. 439-444. ISBN 978-3-85125-638-3.
Geiger, F.; Cuchet, M.; Rutschmann, P. (2018). Fish behavior and fish guidance at hydropower intake screens for fish downstream passage. E3S Web Conferences. 40, 03041. doi: https://doi.org/10.1051/e3sconf/20184003041.
Giehl, S.; Bui, M. D.; Rutschmann, P. (2018). Effects of the Dynamic Bed on Hydrodynamic Modelling in the Inn River. Proc. of the 5th IAHR-Europe Congress, Trento, Italy, pp. 231-232. doi:10.3850/978-981-11-2731-1_352-cd.
Giehl, S. (2018). Herausforderungen bei der 2D-HN-Modellierung im Projekt „Retentionspotential-Studie am Inn“. 20. Treffen junger Wissenschaftlerinnen und Wissenschaftler deutschsprachiger Wasserbauinstitute. 156, pp. 168-173. ISSN 1430-3434.
Hartlieb, A.; Zehender, J.; Rauch, M. (2018). Die Geschiebedurchgängigkeit am geplanten beweglichen Saalachkraftwerk Nonner Rampe. Wasserbau-Symposium Graz. pp. 339-345. ISBN 978-3-85125-638-3.
Hartlieb, A. (2018). Gewollte und ungewollte Verklausung von Schutzeinrichtungen und wasserbaulichen Anlagen. / Intended and unintended debris jams at protection devices and hydraulic structures. Sperrenbau – Sperrentypen –- Sperrenfunktionen. Zeitschrift für Wildbach-, Lawinen-, Erosions- und Steinschlagschutz. Journal of torrent, avalanche, landslide and rock fall engineering. 82, 181, pp. 280-287. ISBN 978-3-9504159-5-7.
Heydeck, L.; Spannring, M.; Rutschmann, P. (2018). Sanierung der Unteren Salzach − Renaturierung = Hochwasserschutz?. Vorsorgender und nachsorgender Hochwasserschutz. pp. 309 – 316. doi: https://doi.org/10.1007/978-3-658-21839-3_45
Hötzl, S.; Schechtl, T.; Rutschmann, P.; Knapp, W. (2018). Development of a Low Head Tidal Turbine. Part 1: CFD Simulations, Design and Optimization. International Marine Energy Journal. 1, 2, pp. 81-90. DOI: https://doi.org/10.36688/imej.1.81-90.
Kaveh, K.; Bui, M. D.; Rutschmann, P. (2018). Development of an Artificial-Neural-Network-based concept for hydro-morphodynamic modelling in rivers. Proc. of the 5th IAHR-Europe Congress, Trento, Italy, pp. 721-722, doi:10.3850/978-981-11-2731-1_121-cd
Kaveh, K.; Bui, M. D.; Rutschmann, P. (2018). Integration of Artificial Neural Networks into TELEMAC-MASCARET system for hydromorphodynamic modelling. Wasserbau-Symposium Graz. pp. 445-453. ISBN 978-3-85125-638-3.
Liepert, T.; Schlagenhauser, M.; Schmelz, S.; Rutschmann, P. (2018). Photogrammetrische Sohlrekonstruktion im wasserbaulichen Versuchswesen. Wasserbau-Symposium Graz. pp. 355-362. ISBN 978-3-85125-638-3.
Nguyen, N. D.; Bui, M. D.; Rutschmann, P. (2018). A behavior-base robotics model for simulating fish movement in a pathway. Wasserbau-Symposium Graz. pp. 455-460. ISBN 978-3-85125-638-3.
Reisenbüchler, M.; Bui, M. D.; Skublics, D.; Rutschmann, P. (2018). Implementing the concept of sediment balance for reliable predicting future river development and management: A hydro-morphological study in the Saalach River. Proc. of the 5th IAHR-Europe Congress, Trento, Italy, pp. 541-542. doi:10.3850/978-981-11-2731-1_144-cd.
Reisenbüchler, M.; Nguyen N.D.; Liepert, T.; Bui, M.D.; Rutschmann, P. (2018). TELEMAC - A hydrodynamic solver for HPC?. InSiDE Magazine Spring. 16, 1, pp. 95-97. DOI: http://inside.hlrs.de/assets/pdfs/inside_spring18.pdf
Reisenbüchler, M.; Liepert, T.; Nguyen N.D.; Bui M.D.; Rutschmann, P. (2018) Prelimirary study on a Bavaria-wide coupled hydrological and hydromorphological model. Proc. of the 32nd EnviroInfo conference, Garching, Germany, pp. 145-148. DOI: http://doi.org/10.2370/9783844061383
Schäfer, S.; Hartlieb, A.; Rutschmann, P. (2018). Quantifizierung der Messungenauigkeiten des ADCP-Messverfahrens bei instationärer, ungleichförmiger Strömung.Wasserbau-Symposium Graz. pp. 221-228. ISBN 978-3-85125-638-3.
Schwarzwälder, K.; Rüther, N.; Alfredsen, K.; Albayrak, I. (2018). Various sediment measurement methods and techniques as basis for habitat quality evaluation in the river section of HPP Schiffmühle. 12th International Symposium on Ecohydraulics, Tokyo, Japan. DOI: https://doi.org/10.3929/ethz-b-000308182.
Skublics, D.; Rutschmann, P. (2018). Hochwasserrückhalt durch natürliche Hochwasserretention entlang der bayerischen Donau. Vorsorgender und nachsorgender Hochwasserschutz. Ausgewählte Beiträge aus der Fachzeitschrift WasserWirtschaft. 2, pp. 231 – 241. DOI: https://doi.org/10.1007/978-3-658-21839-3_34.
Stamou, A.-T.; Rutschmann, P. (2018). Pareto Optimization of Water Resources Using the Nexus Approach. Water Resources Management. 32, 15, pp. 5053-5065. DOI: https://doi.org/10.1007/s11269-018-2127-x.
Stamou, A.; Polydera, A.; Papadonikolaki, G.; Martínez-Capel, F.; Muñoz-Mas, R.; Papadaki, C.; Zogaris, S.; Bui, M. D.; Rutschmann, P.; Dimitriou, E. (2018). Determination of environmental flows in rivers using an integrated hydrological-hydrodynamic-habitat modelling approach. Journal of Environmental Management. 209, pp. 273-285. DOI: https://doi.org/10.1016/j.jenvman.2017.12.038.
Stamou, A.; Mitsopoulos, G.; Rutschmann, P.; Bui, M. D. (2018). Verification of a 3D CFD model for vertical slot fish-passes. Environmental Fluid Mechanics. 18, 6, pp 1435–1461. DOI: https://doi.org/10.1007/s10652-018-9602-z.
Strobl, T. (2018). Die Trinkwassertalsperre Wadi Dayqah im Oman - Erfahrungen aus Planung, Bau und Betrieb. WasserWirtschaft. 108, 6, pp. 108-112. ISSN: 0043-0978.
Theodoropoulos, C.; Georgalas, S.; Mamassis, N.; Stamou, A.; Rutschmann, P.; Skoulikidis, N. (2018). Comparing environmental flow scenarios from hydrological methods, legislation guidelines and hydrodynamic habitat models downstream of the Marathon Dam (Attica, Greece). Ecohydrology. 11, 8, DOI: https://doi.org/10.1002/eco.2019.
Theodoropoulos, C.; Skoulikidis, N.; Rutschmann, P.; Stamou, A. (2018). Ecosystem‐based environmental flow assessment in a Greek regulated river with the use of 2D hydrodynamic habitat modelling. River Research and Applications. 34, 6, pp. 538-547. DOI: https://doi.org/10.1002/rra.3284.
Theodoropoulos, C.; Skoulikidis, N.; Stamou, A.; Dimitriou, E. (2018). Spatiotemporal Variation in Benthic-Invertebrates-Based Physical Habitat Modelling: Can We Use Generic Instead of Local and Season-Specific Habitat Suitability Criteria?. Water. 10, 1508. DOI: https://doi.org/10.3390/w10111508.
Theodoropoulos, C.; Vourka, A.; Skoulikidis, N.; Rutschmann, P.; Stamou, A. (2018). Evaluating the performance of habitat models for predicting the environmental flow requirements of benthic macroinvertebrates. Journal of Ecohydraulics. 3, 1, pp. 30-44, DOI: https://doi.org/10.1080/24705357.2018.1440360.
Yao, W.; Bui, M. D.; Rutschmann, P. (2018). Development of eco-hydraulic model for assessing fish habitat and population status in freshwater ecosystems. Ecohydrology. 11, 5, 1961. DOI: https://doi.org/10.1002/eco.1961.
Zingraff-Hamed, A.; Noack, M.; Greulich, S.; Schwarzwälder, K.; Pauleit, S.; Wantzen, K. M. (2018). Model-Based Evaluation of the Effects of River Discharge Modulations on Physical Fish Habitat Quality. Water. 10, 4, 374. DOI: https://doi.org/10.3390/w10040374.
Zingraff-Hamed, A.; Noack, M.; Greulich, S.; Schwarzwälder, K.; Wantzen, K. M.; Pauleit, S. (2018). Model-Based Evaluation of Urban River Restoration: Conflicts between Sensitive Fish Species and Recreational Users. Sustainability. 10, 6, 1747. DOI: https://doi.org/10.3390/su10061747.
Yao, W.; Zhao, T.; Chen, Y.; Yu, G.; Xiao, M. (2018). Assessing the River Habitat Suitability and Effects of Introduction of Exotic Fish Species Based on Anecohydraulic Model System. Ecological Informatics. 45, pp. 59-69. DOI: https://doi.org/10.1016/j.ecoinf.2018.04.001.
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