Modelling Coastal Environments Professional Consulting Services Coastal Inundation Tsunamis Coastal Hazard Adaptation Strategies Coastal Processes bmtwbm.com.au
Coastal Inundation Risk Assessments Long-term storm tide risk assessments allow inundation hazards to be mapped and community vulnerability to be quantified. Detailed numerical modelling and robust statistical methods underpin storm tide inundation risk assessments. Modelling assessments include the development of a parametric cyclone wind and atmospheric pressure models, hydrodynamic modelling of tides and tropical cyclone storm surges and modelling of cyclone-induced waves. Extensive validation of modelling systems must be undertaken by comparing wind, pressure wave and water level predictions with historical records. BMT WBM has completed coastal inundation risk assessments for a number of Local Government Areas in Queensland and New South Wales, including the following: Bundaberg Mackay Cardwell Cairns Coffs Harbour Newcastle Targeted assessments for specific locations or ports, include: Gladstone (QLD) Bing Bong (NT) Pipavav (India) Coastal Inundation Mapping Modelled Tropical Cyclone Wind Field
Tsunami Inundation Risk Assessments TUFLOW FV (Finite Volume) is a hydrodynamic model engine which solves the Non-Linear Shallow Water Equations on a "flexible" mesh comprising triangular and quadrilateral cells. TUFLOW FV is particularly applicable to tsunami inundation risk assessment due to key features of the solution scheme: Intrinsically handles shocks Locally (and globally) conservative to numerical precision Robust wetting/drying Explicit scheme ideally suited to parallelisation Mixed sub/super-critical flow regimes are well handled by the TUFLOW FV scheme which intrinsically accounts for flow discontinuities such as hydraulic jumps or bores that may occur in trans-critical flows typically observed during extreme coastal inundation events. TUFLOW FV accommodates a wide variety of boundary conditions, initial conditions and other input specifications to ensure its applicability and ease of use for a range of applications. Tsunami risk assessments have been completed by BMT WBM for various locations, including: Japan, West Coast Papua New Guinea, New Island Province Solomon Islands Predicted Tsunami Propagation and Inundation at outputs 5, 30, 45, 60, 75 and 90 minutes from simulation start
Coastal Inundation Model Validation Analytical solutions and controlled laboratory scale experiments are the benchmark tests used to determine the suitability of a numerical model for coastal inundation applications. TUFLOW FV has participated in a number of international benchmarking exercises with a focus on flood and coastal risk management (e.g. Environmental Agency UK, 203; IAHR, 203). Further model validation for specific coastal inundation applications involves hindcasting significant historical events for which recorded data is available. Typical data sources may include: Laboratory Scale (/400) TUFLOW FV Tsunami Inundation Validation Weather stations that provide winds and pressure recordings Storm tide gauges that record coastal water levels Wave buoys that record offshore wave parameters Debris lines used as an indicator of maximum inundation extent Offshore water level monitoring systems (tsunami) References Environment Agency UK (203). Benchmarking the latest generation of 2D hydraulic modelling packages, Flood and Coastal Erosion Risk Management Research and Development Programme, August 203. www.environment-agency.gov.uk Guard, P., Nielsen, C., Ryan, P. and Teakle, I. (203). Parameter sensitivity of a 2D finite volume hydrodynamic model and its application to tsunami simulation, Proceedings of the 35th IAHR World Congress, Chengdu, China, August 203. www.iahr203.org/proceedings.html Tidal Anomaly (m) 5 4 3 2 0 Modelled Recorded CARDWELL 0/02/20 02/02/20 03/02/20 04/02/20 Tropical Cyclone Yasi TUFLOW FV Storm Surge Validation
Coastal Inundation Forecasting Validated TUFLOW FV modelling systems have been used to predict the surge and coastal inundation associated with tropical cyclone threat forecast maps, such as those by the Bureau of Meteorology during an event. Efficient TUFLOW FV forecasting models can be used to predict surge response and coastal inundation associated with tropical cyclone track forecasts. These assessment are carried out when a tropical cyclone system is threatening to cross the coastline with model predictions used to inform disaster management operations. CARDWELL Water Level (mahd) 6 5 4 3 2 0 TC YASI Forecast TC YASI Forecast 2 TC YASI Forecast 3 TC YASI Forecast 4 Highest Astronomical Tide - 02/02/20 00:00 02/02/20 2:00 03/02/20 00:00 03/02/20 2:00 Storm Tide Forecast Predictions based on Tropical Cyclone Track Scenarios Damaged Vessels in Port Hinchinbrook following Tropical Cyclone Yasi Storm Tide
Coastal Hazard Adaptation Strategies Coastal hazards include coastal erosion, storm tide inundation and sea level rise inundation. Urban localities my be considered high risk coastal hazard areas if they exist within: The part of the erosion prone area that is within the coastal management district Land that is projected to be permanently inundated due to sea level rise The part of the storm tide inundation area that is projected to be temporarily inundated to a depth of m or more during a defined design storm tide event Coastal hazard adaptation strategies generally focus on urban areas (including areas subject to development commitments) within a high coastal hazard area. Strategies typically assess options that mitigate the hazard and will analyse the costs-benefits, including the long-term social, financial and environmental factors, to determine the most cost effective solutions. BMT WBM is a leader in providing storm tide and coastal hazard assessments, risk assessment and adaptation planning throughout Australia, and can assist clients to prepare and implement coastal hazard adaptation strategies. Studies addressing coastal hazards and adaptation planning have been completed by BMT WBM for a number of locations, including: Bundaberg Cairns Mackay Cardwell Metung (Gippsland Lakes) Kakadu National Park Wooli Wooli Batemans Bay Coffs Harbour Newcastle Kempsey Lake Macquarie Barwon Heads Altona Joint Probability Ocean Water Level and Fluvial Discharge Fluvial flood levels in lower rivers and estuaries are sensitive to the concurrent ocean water level (tailwater) condition. BMT WBM has experience investigating the joint probability relationship between flood flow and ocean water level, including the extreme scenario of a coastal surge coinciding with fluvial flood discharge. The outcomes of an ocean water level/fluvial discharge joint probability assessment are used to guide hydraulic modelling to determine which combination gives the highest water level at a particular location in the catchment. The combination providing the highest level will vary throughout the lower river or estuary, at the ocean the high tailwater with low flow combination will give the highest level, but higher up the estuary a different combination of flow and tailwater may dominate. Sufficiently upstream of the tidal limit the flood level will no longer have any dependence on the tailwater condition.
Understanding Coastal Processes Obtaining a sound technical understanding of coastal processes on regional and local scales is a key element in the development of coastal inundation risk assessments and coastal hazard adaptation strategies. Limited information is typically gained through historical records and site visits. Predicting future hazards and coastal flooding (storm tide) and the associated risks generally involves modelling tidal hydrodynamics, waves (day-to-day and extreme) and sediment transport potentials. BMT WBM has a long history of modelling coastal processes both in-house and in collaboration with Universities and Government agencies. This commitment has lead to the development and release of commercial software packages: TUFLOW Classic D and 2D floodplain and tide simulation software TUFLOW FV Finite-volume, flexible mesh hydrodynamic engine used to model coastal hydrodynamics, storm tide and flood inundation in 2D or 3D TUFLOW AD Advection-dispersion module for simulating the transport and fate of dissolved and particulate constituents used for water quality assessments TUFLOW ST Sediment transport module for simulating the transport and fate of cohesive (muds) and non-cohesive (sands) sediment used for shoreline evolution and dredging assessments. Using these tools BMT WBM has developed and calibrated models for numerous locations within Queensland, including regional-scale 2D hydrodynamic models of the Coral Sea /Great Barrier Reef, Moreton Bay, Gold Coast and Sunshine Coast. Detailed, local-scale 2D/3D hydrodynamic models can be readily developed using inputs from the existing regional models. The detailed hydrodynamic models form the basis for sediment transport, shoreline evolution and water quality assessments. Ongoing research, in collaboration with the University of Queensland, has led to the development of new coastal modelling tools capable of: Model Mesh and Bathymetry of Great Barrier Reef TUFLOW FV model (looking south across the Cairns region) Quantifying coastal and estuarine responses (e.g. coastal erosion, coastal inundation, estuarine flushing, eutrophication, modification to estuary entrances) to a range of climate change projections Predicting short to geological time-scale coastline evolution associated with longshore and cross shore coastal processes in response to major sea level change These tools are presently being used to deliver state-of-the-art outcomes for clients in Queensland and NSW.
BMT WBM has a proven record in addressing today s engineering and environmental issues. We aim to continue to enhance our services, capabilities and areas of application to meet the community s future development and environmental protection needs. 3 2 BMT WBM Brisbane Level 8 200 Creek Street Brisbane Queensland 4000 PO Box 203 Spring Hill QLD 4004 Tel +6 7 383 6744 Fax +6 7 3832 3627 Email bmtwbm@bmtwbm.com.au BMT WBM Denver Suite 20 8200 S. Akron Street Centennial Denver Colorado CO 802 United States Tel (+) 303 792 984 Fax (+) 303 792 9742 Email denver@bmtwbm.com.au BMT WBM Port Moresby Tel +6 7 383 6744 Email png@bmtwbm.com BMT WBM Mackay PO Box 4447 Mackay QLD 4740 Tel +6 7 4953 544 Fax +6 7 4953 532 Email wbm@bmtwbm.com.au bmtwbm.com.au BMT WBM Melbourne Level 5 99 King Street Melbourne Victoria 3000 PO Box 604 Collins Street West VIC 8007 Tel +6 3 8620 600 Fax +6 3 8620 605 Email melbourne@bmtwbm.com.au BMT WBM Newcastle 26 Belford Street Broadmeadow New South Wales 2292 PO Box 266 Broadmeadow New South Wales 2292 Tel +6 2 4940 8882 Fax +6 2 4940 8887 Email newcastle@bmtwbm.com.au BMT WBM Northern Rivers Suite 6 20 Byron Street Bangalow New South Wales 2479 Tel +6 2 6687 0466 Fax +6 2 6687 0422 Email northern.rivers@bmtwbm.com.au BMT WBM Perth Suite 6 29 Hood Street Subiaco Western Australia 6008 Tel +6 8 9328 2029 Fax +6 8 9486 7588 Email perth@bmtwbm.com.au BMT WBM Sydney Level 256-258 Norton Street Leichhardt 2040 PO Box 94 Leichhardt New South Wales 2040 Tel +6 2 8987 2900 Fax +6 2 8987 2999 Email sydney@bmtwbm.com.au BMT WBM United Kingdom st Floor International House St Katharine s Way London EW AY Tel +44 (0) 20 8090 566 Email london@bmtwbm.co.uk BMT WBM Vancouver 40-6 Alexander Street Vancouver British Columbia V6A E Canada Tel (+) 604 683 5777 Fax (+) 604 608 3232 Email vancouver@bmtwbm.com.au