Publicaties

3286 resultaten

  • Scour at the toe of rock armoured armoured structures

    Auteurs: Bieman, J.P. den; Jacobsen, N.G.; Gent, M.R.A. van (2018)
    Gepubliceerd in: ICCE 2018 : proceedings of the 36th International Conference on Coastal Engineering (Baltimore, Maryland, July 30 - August 3, 2018) (2018), pagina 1-9

    This paper describes the extension of the OpenFOAM numerical model to allow for exchange of sediment between the inside and outside of porous structures. This new feature has been demonstrated by an exploratory application to different toe scour cases. These cases show the sensitivity of the predicted morphological development to the hydraulic forcing conditions and toe structure dimensions. The resulting sedimentation and erosion patterns are remarkable: the significant sedimentation inside of the toe structure is contrary to expectation, especially since it seems to take place in virtually all cases. Also the scour hole on the interface of structure and sand looks unrealistically narrow.

  • Long-term bar dynamics using satellite imagery : a case study at Anmok Beach, South Korea

    Auteurs: Athanasiou, P.; Boer, W.P. de; Tonnon, P.K.; Yoo, J.; Schipper, M. de; Vries, S. de; Ranasinghe, R.; Reniers, A.J.H.M. (2018)
    Gepubliceerd in: ICCE 2018 : proceedings of the 36th International Conference on Coastal Engineering (Baltimore, Maryland, July 30 - August 3, 2018) (2018), pagina 1

    Understanding the variability of the sandbar system can therefore be crucial for informed coastal zone management. So far, the methods to study sandbar dynamics mainly include datasets of video observations or occasional bathymetric surveys. However, at most locations around the world, these types of data are not or only scarcely available. In this paper we present an alternative method to analyze long-term sandbar variability by means of freely available satellite imagery. These images are globally available since the 1980’s and, thus, have the potential to be applicable at any location in the world. Here, we will illustrate the methodology by means of a case study at Anmok beach at the South Korean East coast.

  • Modelling wave overtopping for grass covers and transitions in dike revetments

    Auteurs: Warmink, J.J.; Bergeijk, V.M. van; Chen, W.; Hulscher, S.J.M.H. (2018)
    Gepubliceerd in: ICCE 2018 : proceedings of the 36th International Conference on Coastal Engineering (Baltimore, Maryland, July 30 - August 3, 2018) (2018), pagina 1-7

    Transitions in the dike revetment or in the grass cover can significantly affect the wave overtopping discharge and the dike cover erosion. At the University of Twente, two PhD students recently started on the challenge of quantifying the effect of (1) waterside transition on the wave overtopping discharge and (2) transitions in grass covered dikes on dike erosion. In this paper we present their preliminary results and outline their future plans. Firstly, new laboratory experiments show that the existing wave overtopping formulas are not able to accurately predict the overtopping discharge in case of transitions on the waterside slope. Secondly, the analytical dike cover erosion model shows that transitions in grass covers significantly affect the location of maximum flow velocity and potential dike cover erosion. In future work, detailed numerical models will be developed for both the waterside slope and the landward slope to further increase our understanding of the effects of transitions on the wave overtopping discharge and the dike cover erosion.

  • Aged asphaltic dike revetments on (saturated) sand tested in a large Deltaflume

    Auteurs: Wichman, B.G.H.M.; Klein Breteler, M.A.; Hateboer, J. (2018)
    Gepubliceerd in: ICCE 2018 : proceedings of the 36th International Conference on Coastal Engineering (Baltimore, Maryland, July 30 - August 3, 2018) (2018), pagina 1-2

    In the Netherlands, 600 km of the sea dikes are protected by an asphaltic revetment which must resist considerable wave loads with a significant wave height of up to 4.5 m. The subsoil is normally sandy, and the asphalt layer can fail as a result of fatigue due to repeated loading under storm conditions (Wichman & Davise 2016). Fifty years old asphalt has been taken from the Dutch Lauwersmeer dike and placed on a sand body in the large Deltaflume at Deltares, where it is possible to generate large waves (up to 4 meters). The aim of the research is to determine the resistance of the asphaltic revetment to major wave attack until failure, i.e. when it loses its function to protect the dike from erosion. The position of the phreatic line in the sand has been varied. Insights from these instrumented tests, will lead to improvement and extension of the current safety assessment.

  • Sensitivity analysis of a wall boundary condition for the turbulent pipe flow of Herschel–Bulkley fluids

    Auteurs: Mehta, D.; Thota Radhakrishnan, A.K.; Lier, J.B. van; Clemens, F.H.L.R. (2019)
    Gepubliceerd in: Water, volume 11 (2019) nummer 1, pagina 1-19

    This article follows from a previous study by the authors on the computational fluid dynamics-based analysis of Herschel–Bulkley fluids in a pipe-bounded turbulent flow. The study aims to propose a numerical method that could support engineering processes involving the design and implementation of a waste water transport system, for concentrated domestic slurry. Concentrated domestic slurry results from the reduction in the amount of water used in domestic activities (and also the separation of black and grey water). This primarily saves water and also increases the concentration of nutrients and biomass in the slurry, facilitating efficient recovery. Experiments revealed that upon concentration, domestic slurry flows as a non-Newtonian fluid of the Herschel–Bulkley type. An analytical solution for the laminar transport of such a fluid is available in literature. However, a similar solution for the turbulent transport of a Herschel–Bulkley fluid is unavailable, which prompted the development of an appropriate wall function to aid the analysis of such flows. The wall function (called y1 hereafter) was developed using Launder and Spalding’s standard wall function as a guide and was validated against a range of experimental test-cases, with positive results. y1 is assessed for its sensitivity to rheological parameters, namely the yield stress, the fluid consistency index and the behaviour index and their impact on the accuracy with which y1 can correctly quantify the pressure loss through a pipe. This is done while simulating the flow of concentrated domestic slurry using the Reynolds-Averaged Navier–Stokes (RANS) approach for turbulent flows. This serves to establish an operational envelope in terms of the rheological parameters and the average flow velocity within which y1 is a must for accuracy. One observes that, regardless of the fluid behaviour index, y1 is necessary to ensure accuracy with RANS models only in flow regimes where the wall shear stress is comparable to the yield stress within an order of magnitude. This is also the regime within which the concentrated slurry analysed as part of this research flows, making y1 a requirement. In addition, when the wall shear stress exceeds the yield stress by more than one order (either due to an inherent lower yield stress or a high flow velocity), the regular Newtonian wall function proposed by Launder and Spalding is sufficient for an accurate estimate of the pressure loss, owing to the relative reduction in non-Newtonian viscosity as compared to the turbulent viscosity.

  • Intertidal area disappears under sea level rise : 250 years of morphodynamic modeling in San Pablo Bay, California

    Auteurs: Elmilady, H.; Wegen, M. van der; Roelvink, J.A. (2018)
    Gepubliceerd in: Journal of geophysical research : earth surface (2018), pagina 1-47

    In this research, we aim to validate a numerical model against observed bed level developments in San Pablo Bay, a sub‐embayment of San Francisco Estuary, to make trustworthy predictions of the estuarine bed including future sea level rise. The model included detailed tidal water movement, wind wave action, sediment transports, and resulting bed level updates. Our hindcast (1856‐1983) showed significant skill in reproducing observed bed level developments. Our forecast shows that sea level rise slowly drowns the intertidal environment. The sea level rise rate is larger than the accretion rate of the mudflats. Mitigation and adaptation strategies are required to ensure the sustainability of the estuarine environment against climate‐induced changes.

  • Application of an improved global-scale groundwater model for water table estimation across New Zealand

    Auteurs: Westerhoff, R.S.; White, P.; Miguez-Macho, G. (2018)
    Gepubliceerd in: Hydrology and earth system sciences, volume 22 (2018) nummer 12, pagina 6449–6472

    In New Zealand, advanced numerical groundwater flow models have been applied in several catchments. However, that application is piecemeal: only for a limited amount of aquifers and through a variety of groundwater model suites, formats, and developers. Additionally, there are large areas where groundwater models and data are sparse. Hence, an inter-catchment, inter-regional, or nationwide overview of important groundwater information, such as the water table, does not exist. The investment needed to adequately cover New Zealand with high-resolution groundwater models in a consistent approach would be significant and is therefore not considered possible at this stage. This study proposes a solution that obtains a nationwide overview of groundwater that bridges the gap between the (too-)expensive advanced local models and the (too-)simple global-scale models. We apply an existing, global-scale, groundwater flow model and improve it by feeding in national input data of New Zealand terrain, geology, and recharge, and by slight adjustment of model parametrisation and model testing. The resulting nationwide maps of hydraulic head and water table depths show that the model points out the main alluvial aquifers with fine spatial detail (200 m grid resolution). The national input data and finer spatial detail result in better and more realistic variations of water table depth than the original, global-scale, model outputs. In two regional case studies in New Zealand, the hydraulic head shows excellent correlation with the available groundwater level data. Sensitivity and other analyses of our nationwide water tables show that the model is mostly driven by recharge, model resolution, and elevation (gravity), and impeded by the geology (permeability). The use of this first dedicated New Zealand-wide model can aid in provision of water table estimates in data-sparse regions. The national model can also be used to solve inconsistency of models in areas of trans-boundary aquifers, i.e. aquifers that cover more than one region in New Zealand. Comparison of the models, i.e. the national application (National Water Table model: NWT) with the global model (Equilibrium Water Table model: EWT), shows that most improvement is achieved by feeding in better and higher-resolution input data. The NWT model still has a bias towards shallow water tables (but less than the EWT model because of the finer model resolution), which could only be solved by feeding in a very high resolution terrain model that incorporates drainage features. Although this is a model shortcoming, it can also be viewed as a valuable indicator of the pre-human water table, i.e. before 90 % of wetlands were drained for agriculture since European settlement in New Zealand. Calibration to ground-observed water level improves model results but can of course only work where there are such data available. Future research should therefore focus on both model improvements and more data-driven, improved estimation of hydraulic conductivity, recharge, and the digital elevation model. We further surmise that the findings of this study, i.e. successful application of a global-scale model at smaller scales, will lead to subsequent improvement of the global-scale model equations.

  • A data-driven surrogate modelling approach for acceleration of short-term simulations of a dynamic urban drainage simulator

    Auteurs: Mahmoodian, M.; Torres-Matallana, J.A.; Leopold, U.; Schutz, G.; Clemens, F.H.L.R. (2018)
    Gepubliceerd in: Water, volume 10 (2018) nummer 12, pagina 1-7

    In this study, applicability of a data-driven Gaussian Process Emulator (GPE) technique to develop a dynamic surrogate model for a computationally expensive urban drainage simulator is investigated. Considering rainfall time series as the main driving force is a challenge in this regard due to the high dimensionality problem. However, this problem can be less relevant when the focus is only on short-term simulations. The novelty of this research is the consideration of short-term rainfall time series as training parameters for the GPE. Rainfall intensity at each time step is counted as a separate parameter. A method to generate synthetic rainfall events for GPE training purposes is introduced as well. Here, an emulator is developed to predict the upcoming daily time series of the total wastewater volume in a storage tank and the corresponding Combined Sewer Overflow (CSO) volume. Nash-Sutcliffe Efficiency (NSE) and Volumetric Efficiency (VE) are calculated as emulation error indicators. For the case study herein, the emulator is able to speed up the simulations up to 380 times with a low accuracy cost for prediction of the total storage tank volume (medians of NSE = 0.96 and VE = 0.87). CSO events occurrence is detected in 82% of the cases, although with some considerable accuracy cost (medians of NSE = 0.76 and VE = 0.5). Applicability of the emulator for consecutive short-term simulations, based on real observed rainfall time series is also validated with a high accuracy (NSE = 0.97, VE = 0.89).

  • Zware metalen in dierlijke mest in 2017

    Auteurs: Klein, J.; Roskam, G.D. (2018)

    In deze studie worden actuele gehalten aan zware metalen in varkens-, rundvee- en vleeskuikenmest per diersoort en per regio gerapporteerd. Het betreft de metalen Cd, Co, Cr, Cu, Hg, Mo, Ni, Pb, Sb, Se, V, U, Zn, Ba en As.

  • Review of snow data assimilation methods for hydrological, land surface, meteorological and climate models : results from a COST HarmoSnow Survey

    Auteurs: Helmert, J.; Alvarado Montero, R. (2018)
    Gepubliceerd in: Geosciences, volume 8 (2018) nummer 12, pagina 1-22

    The European Cooperation in Science and Technology (COST) Action ES1404 “HarmoSnow”, entitled, “A European network for a harmonized monitoring of snow for the benefit of climate change scenarios, hydrology and numerical weather prediction” (2014-2018) aims to coordinate efforts in Europe to harmonize approaches to validation, and methodologies of snow measurement practices, instrumentation, algorithms and data assimilation (DA) techniques. One of the key objectives of the action was “Advance the application of snow DA in numerical weather prediction (NWP) and hydrological models and show its benefit for weather and hydrological forecasting as well as other applications.” This paper reviews approaches used for assimilation of snow measurements such as remotely sensed and in situ observations into hydrological, land surface, meteorological and climate models based on a COST HarmoSnow survey exploring the common practices on the use of snow observation data in different modeling environments. The aim is to assess the current situation and understand the diversity of usage of snow observations in DA, forcing, monitoring, validation, or verification within NWP, hydrology, snow and climate models. Based on the responses from the community to the questionnaire and on literature review the status and requirements for the future evolution of conventional snow observations from national networks and satellite products, for data assimilation and model validation are derived and suggestions are formulated towards standardized and improved usage of snow observation data in snow DA. Results of the conducted survey showed that there is a fit between the snow macro-physical variables required for snow DA and those provided by the measurement networks, instruments, and techniques. Data availability and resources to integrate the data in the model environment are identified as the current barriers and limitations for the use of new or upcoming snow data sources. Broadening resources to integrate enhanced snow data would promote the future plans to make use of them in all model environments.

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