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Water Resources Management

Erschienen in:

01.01.2016

Application of a Three-Dimensional Unstructured-Mesh Finite-Element Flooding Model and Comparison with Two-Dimensional Approaches

verfasst von: Ting Zhang, Ping Feng, Čedo Maksimović, Paul D. Bates

Erschienen in: Water Resources Management | Ausgabe 2/2016

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Abstract

Urban flood modelling plays a key role in assessment of flood risk in urban areas by providing detailed information of the flooding process (e.g. location, depth and velocity of flooding). Accurate modelling results are the basis of reliable flood risk evaluation. In this paper, modelling of a flood event in a densely urbanized area within the city of Glasgow is presented. Modelling is performed using a new three-dimensional (3D) flooding model, which is an unstructured mesh, finite element model that solves the Navier-Stokes equations, and developed based on Fluidity. The terrain data considered comes from a 2 m Light Detection and Ranging (LiDAR) Digital Terrain Model (DTM) and aerial imagery. The model is validated with flood inundation area and flow features, and sensitivity analyses are conducted to identify the mesh resolution required for accuracy purposes and the effect of the uncertainty in the inflow discharge. Good agreement has been achieved when comparing the results with those published in other 2D shallow water models in ponded areas. However, larger vertical velocity (>0.2 m/s) and larger differences between the 3D and 2D models can be observed in areas with greater topographic gradients (>3 %). Finally, performance of the proposed 3D flooding model has been analysed. Through the modelling of a real flooding event this paper helps illustrate the case that 3D modelling techniques are promising to improve accuracy and obtain more detailed information related to urban flooding dynamics, which is useful in urban flood control planning and risk management. To the best of our knowledge, this is the first paper to apply a 3D unstructured mesh finite-element model (FEM model) to a real urban flooding event. It highlights some of the differences between the 3D and 2D urban flood modelling results.

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Begnudelli L, Sanders BF, Bradford SF (2008) Adaptive godunov-based model for flood simulation. J Hydraul Eng 134(6):714–725CrossRef

Bellos V, Tsakiris G (2015) Comparing various methods of building representation for 2d flood modelling in built-up areas. Water Resour Manag 29(2):379–397CrossRef

Bradbrook K, Lane S, Waller S, Bates P (2004) Two dimensional diffusion wave modelling of flood inundation using a simplified channel representation. International Journal of River Basin Management 2(3):211–223CrossRef

Brown JD, Spencer T, Moeller I (2007) Modeling storm surge flooding of an urban area with particular reference to modeling uncertainties: A case study of canvey island, united kingdom. Water Resour Res 43(6)

Chen J, Hill AA, Urbano LD (2009) A gis-based model for urban flood inundation. J Hydrol 373(1):184–192CrossRef

Cobby DM, Mason DC, Davenport IJ (2001) Image processing of airborne scanning laser altimetry data for improved river flood modelling. ISPRS J Photogramm Remote Sens 56(2):121–138CrossRef

Couplet M, Basdevant C, Sagaut P (2005) Calibrated reduced-order pod-galerkin system for fluid flow modelling. J Comput Phys 207(1):192–220CrossRef

Djordjević S, Saul AJ, Tabor GR, Blanksby J, Galambos I, Sabtu I, Sailor G (2011) Experimental and numerical investigation of interactions between above and below ground drainage systems. In: 12th International Conference on Urban Drainage, vol 1999, pp 10–15

Du J, Fang F, Pain CC, Navon I, Zhu J, Ham DA (2013) Pod reduced-order unstructured mesh modeling applied to 2d and 3d fluid flow. Computers & Mathematics with Applications 65(3):362–379CrossRef

Elliott A, Trowsdale S (2007) A review of models for low impact urban stormwater drainage. Environ Model Softw 22(3):394–405CrossRef

Falconer RA (1986) Water quality simulation study of a natural harbor. J Waterw Port Coast Ocean Eng 112(1):15–34CrossRef

Fewtrell T, Bates P, Horritt M, Hunter N (2008) Evaluating the effect of scale in flood inundation modelling in urban environments. Hydrol Process 22(26):5107–5118CrossRef

Funke S, Pain C, Kramer S, Piggott M (2011) A wetting and drying algorithm with a combined pressure/free-surface formulation for non-hydrostatic models. Adv Water Resour 34(11):1483–1495CrossRef

Galambos I (2012) Improved understanding of performance of local controls linking the above and below ground components of urban flood flows. PhD thesis, University of Exeter

Gallegos HA, Schubert JE, Sanders BF (2009) Two-dimensional, high-resolution modeling of urban dam-break flooding: a case study of baldwin hills, california. Adv Water Resour 32(8):1323–1335CrossRef

Geuzaine C, Remacle JF (2009) Gmsh: A 3-d finite element mesh generator with built-in pre-and post-processing facilities. Int J Numer Methods Eng 79(11):1309–1331CrossRef

Hollis G (1975) The effect of urbanization on floods of different recurrence interval. Water Resour Res 11(3):431–435CrossRef

Hunter N, Bates P, Neelz S, Pender G, Villanueva I, Wright N, Liang D, Falconer R, Lin B, Waller S et al (2008) Benchmarking 2d hydraulic models for urban flooding. In: Proceedings of the ICE-Water Management, vol 161, pp 13–30

Hunter NM, Horritt MS, Bates PD, Wilson MD, Werner MG (2005) An adaptive time step solution for raster-based storage cell modelling of floodplain inundation. Adv Water Resour 28(9):975–991CrossRef

Hunter NM, Bates PD, Horritt MS, Wilson MD (2007) Simple spatially-distributed models for predicting flood inundation: a review. Geomorphology 90(3):208–225CrossRef

Lane S, Bradbrook K, Richards K, Biron P, Roy A (1999) The application of computational fluid dynamics to natural river channels: three-dimensional versus two-dimensional approaches. Geomorphology 29(1):1–20CrossRef

LaRocque LA, Elkholy M, Hanif Chaudhry M, Imran J (2013) Experiments on urban flooding caused by a levee breach. J Hydraul Eng 139(9):960–973CrossRef

Leopold LB (1968) Hydrology for urban land planning: A guidebook on the hydrologic effects of urban land use

Lhomme J, Soares Frazao S, Guinot V, Zech Y et al (2006) Large-scale urban floods modelling and two-dimensional shallow water models with porosity. In: Proceedings 7th International Conference on Hydroinformatics

Liang D, Falconer RA, Lin B (2006) Comparison between tvd-maccormack and adi-type solvers of the shallow water equations. Adv Water Resour 29(12):1833–1845CrossRef

Liang D, Lin B, Falconer RA (2007) Simulation of rapidly varying flow using an efficient tvd–maccormack scheme. Int J Numer Methods Fluids 53(5):811–826CrossRef

Liang Q, Du G, Hall JW, Borthwick AG (2008) Flood inundation modeling with an adaptive quadtree grid shallow water equation solver. J Hydraul Eng 134(11):1603–1610CrossRef

Liberge E, Hamdouni A (2010) Reduced order modelling method via proper orthogonal decomposition (pod) for flow around an oscillating cylinder. J Fluids Struct 26(2):292–311CrossRef

Liu J, Wang SY, Li DM (2014) The analysis of the impact of land-use changes on flood exposure of wuhan in yangtze river basin, china. Water Resour Manag 28 (9):2507–2522CrossRef

McMillan HK, Brasington J (2007) Reduced complexity strategies for modelling urban floodplain inundation. Geomorphology 90(3):226–243CrossRef

Messner F, Meyer V (2006) Flood damage, vulnerability and risk perception–challenges for flood damage research. Springer, New YorkCrossRef

Pain C, Piggott M, Goddard A, Fang F, Gorman G, Marshall D, Eaton M, Power P, De Oliveira C (2005) Three-dimensional unstructured mesh ocean modelling. Ocean Model 10(1):5–33CrossRef

Rao A, Jain I, Murthy MR, Murty T, Dube S (2009) Impact of cyclonic wind field on interaction of surge–wave computations using finite-element and finite-difference models. Nat Hazards 49(2):225–239CrossRef

Schubert JE, Sanders BF, Smith MJ, Wright NG (2008) Unstructured mesh generation and landcover-based resistance for hydrodynamic modeling of urban flooding. Adv Water Resour 31(12):1603–1621CrossRef

Selle L, Lartigue G, Poinsot T, Koch R, Schildmacher K-U, Krebs W, Prade B, Kaufmann P, Veynante, D (2004) Compressible large eddy simulation of turbulent combustion in complex geometry on unstructured meshes. Combust Flame 137(4):489–505CrossRef

Shahapure S, Eldho T, Rao E (2010) Coastal urban flood simulation using fem, gis and remote sensing. Water Resour Manag 24(13):3615–3640CrossRef

Smith D (1994) Flood damage estimation- a review of urban stage-damage curves and loss functions. Water SA 20(3):231–238

Spentzos A, Barakos G, Badcock K, Richards B, Wernert P, Schreck S, Raffel M (2004) CFD investigation of 2d and 3d dynamic stall. In: AHS International 4th Decennial Specialists Conference on Aeromechanics

Syme WJ (1992) Dynamically linked two-dimensional/one-dimensional hydrodynamic modelling program for rivers, estuaries & coastal waters. PhD thesis, University of Queensland

Tsakiris G, Bellos V (2014) A numerical model for two-dimensional flood routing in complex terrains. Water Resour Manag 28(5):1277–1291CrossRef

Villanueva I, Wright N (2006) Linking riemann and storage cell models for flood prediction. In: Proceedings of the ICE-Water Management, vol 159, pp 27–33

Wang X, Cao Z, Pender G, Tan G (2010) Modelling of urban flooding due to yangtze river dike break. In: Proceedings of the ICE-Water Management, vol 164, pp 3–14

Werner M, Blazkova S, Petr J (2005) Spatially distributed observations in constraining inundation modelling uncertainties. Hydrol Process 19(16):3081–3096CrossRef

Xiao D, Fang F, Buchan AG, Pain CC, Navon IM, Du J, Hu G (2014) Non-linear model reduction for the navier–stokes equations using residual deim method. J Comput Phys 263:1–18CrossRef

Zoppou C (2001) Review of urban storm water models. Environ Model Softw 16 (3):195–231CrossRef

Titel: Application of a Three-Dimensional Unstructured-Mesh Finite-Element Flooding Model and Comparison with Two-Dimensional Approaches
verfasst von: Ting Zhang
Ping Feng
Čedo Maksimović
Paul D. Bates
Publikationsdatum: 01.01.2016
Verlag: Springer Netherlands
Erschienen in: Water Resources Management / Ausgabe 2/2016
Print ISSN: 0920-4741
Elektronische ISSN: 1573-1650
DOI: https://doi.org/10.1007/s11269-015-1193-6

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