Jakub Hakiel scite author profile

Rapid development of urban areas always comes with great side effects. One of them is the occurrence of urban floods. Growth of impervious surfaces in cities leads to increasing run-off values. This together with difficulties connected with sewage modernization in cities marks urban inundations as being one of the most important issues concerning urban water. Accurate prediction of a phenomenon is difficult as it is highly dependent on local conditions and the quality of available data about them. A most recent approach to modelling urban flooding involves a detailed description of the interaction between storm water sewage flow modelling and surface flow modelling. In this paper we will describe a numerical model of urban inundation that is being used to analyse the phenomenon, which consists of 1D storm water flow model (explicit McCormack scheme) and 1D surface flow model (diffusive wave). But before that laboratory tests describing the interaction between used models will be introduced. We will try to evaluate how different surface flow conditions affect interaction and find out if there is an easy way to implement it in coupled numerical modelling of large-scale urban areas inundations. Because tests are still being conducted and further investigation of phenomenon is being done, the conclusions are only preliminary and should be treated as a guideline for future work.

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Hydraulic potential of the Lower Vistula (Poland)

Szydłowski

Szymkiewicz

Gąsiorowski

et al. 2018

E3S Web Conf.

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The Vistula is the largest river in Poland. Lower Vistula (part of the river discussed in this paper) is almost four hundred kilometers long river section extending from the tributary Narew to the outflow to the Baltic Sea. In the 17th century the Vistula was the most navigable river in Europe. After partitioning of Poland the Vistula lost its significance. Now the Lower Vistula should provide a navigation connection to the Europe forming water routes E70 and E40. However it does not meet the criteria required for the international waterways. Moreover, the river has a quite large hydro-energy potential. There have been many plans for the development of the Lower Vistula River so far. Unfortunately none of them has been implemented. In this paper, the authors would like to present their own arguments to reactivate the Lower Vistula Cascade (LVC) project. In order to analyse the LVC idea and Lower Vistula hydraulic potential, a numerical hydraulic model of the Lower Vistula was developed at the Department of Hydraulic Engineering of Gdansk University of Technology. Various aspects of the LVC concept, such a potential inland waterways, hydropower, flood control and water retention, are discussed in the article.

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Numerical analysis of impact of sea level on the development of swellings in seasides surface streams on example of Strzyża stream

Hakiel

2015

ASP FC

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Streszczenie. W dzisiejszych czasach coraz większym problemem stają się podtopienia na terenach zurbanizowanych. Biorąc to pod uwagę, należy większą wagę przyłożyć do prawidłowego obliczania przepustowości koryta. Jednym z czynników wpływających na nie są warunki na odpływie. W przypadku potoków nadmorskich zależą one ściśle od poziomu morza. W pracy podjęto próbę wyznaczenia wpływu poziomu morza na przebieg wezbrań w nadmorskich ciekach powierzchniowych. W tym celu przeprowadzono analizę numeryczną przepływu wody w potoku Strzyża w Gdańsku, którego odbiornikiem jest Martwa Wisła, której poziom wody jest jednakowy z poziomem morza. Obliczenia wykonano na modelu numerycznym opartym na układzie równań de Saint-Venanta w postaci zachowawczej, rozwiązanego metodą różnic skończonych (schemat McCormacka). Analizę przeprowadzono dla dwóch fal wezbraniowych o prawdopodobieństwie przekroczenia 1% i 10% oraz dla sytuacji, gdy w potoku występuje jednostajny przepływ średni. Dla każdego wariantu przyjęto dwa współczynniki szorstkości Manninga: 0,04 oraz 0,08. Otrzymane wyniki przedstawiono w postaci profili maksymalnych poziomów wody w potoku oraz zestawienia zasięgów wpływu poziomu morza na poziom wody w cieku. Podsumowując wykonane obliczenia, wykazano, że oddziaływanie morza zależy bezpośrednio od poziomu wody w potoku. Zdecydowanie większy wpływ na przebieg wezbrania mają przyjęte do obliczeń wartości przepływu. Stanowi to kluczową informację przy określaniu poziomu istotności analizowanego problemu. Praca ta może być wstępem do bardziej szczegółowego rozpoznania zjawiska.

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Jakub Hakiel

Hydropower potential of the lower Vistula

Interaction Between Storm Water Conduit Flow and Overland Flow for Numerical Modelling of Urban Area Inundation

Interaction between storm water conduit and surface flow for urban flood inundation modelling

Hydraulic potential of the Lower Vistula (Poland)

Numerical analysis of impact of sea level on the development of swellings in seasides surface streams on example of Strzyża stream

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