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Line 17: <gallery mode="packed-overlay" widths=200px heights=250px color:red> Image:~~MRW_TUFLOW_HPC_Dambreak_Benchmark~~MRW TUFLOW HPC Dambreak Benchmark.JPG\|[https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/Dambreak_Benchmark_ANCOLD2018_WRM.pdf TUFLOW HPC Benchmark for Dambreak Analysis(MRW Water and Environment Pty Ltd) (2018)] Image:UK_EA_Benchmark_Testing_2017_002.PNG\|[https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/UK%20EA%202D%20Benchmarking%20Results.TUFLOW%20Products%202017-09.pdf UK Environment Agency 2D Benchmarking Results - TUFLOW Products (2017)] Image:GPU Stormwater Model Speed Comparison 001.PNG\|[https://~~www~~downloads.tuflow.com/~~Download~~_archive/Presentations/2017/Huxley2017_IECA-SQ%20Conference_Brisbane_pdf.pdf Rapid and Accurate Stormwater Drainage Assessments Using GPU Technology (2017)] Image:Brisbane River Catchment Flood Study Calibration 001.PNG\|[https://~~www~~cabinet.~~qldreconstruction~~qld.~~org~~gov.au/udocuments/~~lib~~2017/~~cms2~~Apr/~~BNEFloodStudy~~FloodStudies/~~R.B20702.003.01.MR3.Detailed_Model_Development_and_Calibration~~Attachments/TechnicalSummary.~~pdf~~PDF Brisbane River Catchment Flood Study Detailed Model Calibration (2016)] Image:Hardware_Benchmark_001.PNG\|[[Hardware_Benchmarking \| Computer Hardware Benchmark Comparsions- What Performs Best for TUFLOW Simulations]] </gallery> Line 39: [[File:Boyte_2014_Catchment.PNG\|400px]] <br> [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/2012Boyte_DirectRainfallValidation.pdf Click Here To Open Thesis (Boyte, 2014)]<br> == Leister (2010) == The author undertook research to ascertain the accuracy of TUFLOW in calculating the energy losses associated with the contraction and expansion of flow through a constriction and to ascertain the most appropriate method/s for reliably modelling the energy losses associated with bridge piers. To undertake the research 2D model results were compared to physical flume test undertaken by Liu et al (1957). Line 47: The results from the analysis undertaken have shown that TUFLOW can, within reasonable bounds, reproduce the results of the physical model. Recommendations regarding the modeling of constrictions and piers within a 2D hydraulic model are made. <br> [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/Leister_2010_Masters_Thesis.pdf Click Here To Open Thesis (Leister, 2010)]<br> == Caddis (2010) == Line 55: * Assess the influence that varying soil types have on surface runoff; and * Assess the influence that ponding depth has on infiltration, and the subsequent affect on surface runoff.<br> [~~http~~https://downloads.tuflow.com/~~Download~~_archive/Publications/R.Masters.01.002.pdf Click Here To Open Thesis (Caddis, 2010)]<br> == Huxley (2004) == This thesis validates TUFLOW against independent analytical calculations. The study used over 300 benchmark models to verify the accuracy of TUFLOW for a range of flow conditions (super critical, critical and subcritical). The specific test cases included: Line 68: [[File:Huxley_2004_Variance.PNG\|400px]]<br> [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/TUFLOW%20Validation%20and%20Testing,%20Huxley,%202004.pdf Click Here To Open Thesis (Huxley, 2004)]<br> == Barton (2001) == Line 79: [[File:Barton_2009.PNG\|400px]]<br> [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/Flow%20Through%20an%20Abrupt%20Constriction%20-%202D%20Hydrodynamic%20Performance%20and%20Influence%20of%20Spatial%20Resolution,%20Barton,%202001.pdf Click Here To Open Thesis (Barton, 2001)]<br> == Syme (1991) == TUFLOW was first developed as a result of this Masters study. This thesis summarises the mathematical theory that underpins TUFLOW. It presents a discussion on the process of selecting TUFLOW's 1D and 2D schemes. It also details: Line 85: The wetting and drying method; the dynamic 2D/1D link; and * The stabilisation of oblique water level boundaries. <br> [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/Dynamically%20Linked%202D%20and%201D%20Hydrodynamic%20Modelling,%20Syme,%201991.pdf Click Here To Open Thesis (Syme, 1991)]<br> = Other Benchmark Studies = Line 92: <li> Daniel Sheehy, Dr Sharmil Markar, Dr David Newton from WRM Water & Environment Pty Ltd assessed the capability of the TUFLOW HPC to accurately simulate an idealised dam break scenario by comparing the model results to analytical solutions. The results were also compared the model results for coastal inundation by a tsunami to real-world data from the 2004 Banda Ache (Indonesia) tsunami. The findings demonstrate that TUFLOW HPC correctly captures the dam break flood fronts and the flood wave propagation. As such TUFLOW HPC is well suited for dam break flood modelling: <br> [https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/Dambreak_Benchmark_ANCOLD2018_WRM.pdf Assessing the Accuracy of a Two-dimensional Hydraulic Model for Dambreak Analysis: Sheehy et al (ANCOLD, 2018)]</li> <li>The Environment Agency in the United Kingdom have documented independent testing of most 2D modelling packages. Testing was undertaken in both 2010 and 2013 and all three TUFLOW engines were submitted for testing in 2013. This is a good resource for comparing TUFLOW to other available software. The tests have subsequently been rerun and documented using the latest version of TUFLOW in 2017: <br> [~~http~~https://~~evidence.environment-agency~~www.gov.uk/~~FCERM~~government/~~Libraries~~publications/~~FCERM_Project_Documents/SC120002_Benchmarking_2D_hydraulic_models_Report.sflb.ashx~~benchmarking-the-latest-generation-of-2d-hydraulic-flood-modelling-packages Benchmarking the Latest Generation of 2D Hydraulic Modelling Packages (Environment Agency, 2013)]</li> [https://~~www~~assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/290884/scho0510bsno-e-e.pdf Benchmarking of 2D Hydraulic Modelling Packages (Environment Agency, 2010)]~~</li>~~ The above benchmark documents have been superseded by the document below. It is a revision of the benchmark modelling using the 2017-09-AC version of TUFLOW. It includes results for TUFLOW Classic, FV, GPU and the new TUFLOW HPC solver. [https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/UK%20EA%202D%20Benchmarking%20Results.TUFLOW%20Products%202017-09.pdf United Kingdom Environment Agency 2D Benchmarking Results - TUFLOW Products (2017)]~~</li>~~ <li>Chris Huxley compared the speed of TUFLOW Classic against the TUFLOW HPC for high resolution integrated urban drainage applications. The modelling included the underground stormwater network and 1D elements and 2D for the representation of above ground flooding. Models ranging in size from 7,500 2D cells to 12,500,000 2D cells were assessed. [https://~~www~~downloads.tuflow.com/~~Download~~_archive/Presentations/2017/Huxley2017_IECA-SQ%20Conference_Brisbane_pdf.pdf Rapid and Accurate Stormwater Drainage Assessments Using GPU Technology (2017)]</li> <li>Wood Rodgers compared TUFLOW results against recorded flume data and standard engineering equations. The assessment results were presented at the 2015 Floodplain Management Association Conference in Rancho Mirage, California. The TUFLOW results are summarized in the following link: [[Wood_Rodgers_FMA2015 \| Wood Rodgers Model Benchmark Testing (FMA Conference, 2015)]]</li> Chris Huxley built on the dataset for the 2015 TUFLOW User Conference [[Benchmark_Comparison_User_Conference2015 \| Model Benchmark Testing (TUFLOW User Conference, 2015)]]~~</li>~~ <li>Bill Syme presented model validation/benchmark results for bends, structures and obstructions at the 2011 Australian TUFLOW Workshop and 2011 Association of State Floodplain Managers (ASFPM) Conference [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Presentations/2012/2012%20Aust%20Workshops%20-%20TUFLOW%20Modelling%20Bends,%20Structures%20and%20Obstructions.pdf 1D and 2D Modelling of Bends, Structures and Obstructions (TUFLOW Workshop, 2011)] [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Presentations/Modelling%20Structures.Syme.ASFPM%20SMS%20Workshop%20USA%202011.pdf Modelling Structures (ASFPM Conference, 2011)]</li> <li>Bill Syme presented model validation results for a case study in the Eudlo Creek Catchment, Australia at the 2006 Association of State Floodplain Managers (ASFPM) Conference. TUFLOW was benchmarked against a physical model and FESWMS. [~~http~~https://~~www~~downloads.tuflow.com/~~Download~~_archive/Publications/2006.05%20-%20Bruce%20Highway%20Eudlo%20Ck%20Hydraulic%20Investigations%20-%20A%20Turning%20Point.Syme.ASFPM%202006.pdf Bruce Highway Eudlo Creek Hydraulic Investigations (ASFPM Conference, 2006)]</li> <li>Additional TUFLOW benchmark articles are available from the "Library" section of the TUFLOW website: ~~http~~[https://www.tuflow.com/~~Library~~library/ https://www.~~aspx~~tuflow.com/library/]</li> </ol> Line 121: TUFLOW has been used on thousands of flood studies worldwide. Model calibration to historic events is a critical element of any flood study. Here are some links to public domain documents which have included TUFLOW model calibration/validation to historic flood events. * [https://www.publications.qld.gov.au/dataset/brisbane-river-catchment-flood-study~~/resource/16440193-2c27-45c6-850a-2ce1b1a30dd5~~ Brisbane River Catchment Flood Study (All Reports)] * [~~http~~https://www.~~qldreconstruction~~publications.~~org~~qld.gov.au/~~u/lib~~ckan-publications-attachments-prod/~~cms2~~resources/~~BNEFloodStudy~~16440193-2c27-45c6-850a-2ce1b1a30dd5/Rr.~~B20702~~b20702.003.01.~~MR3~~mr3.~~Detailed_Model_Development_and_Calibration~~detailed-model-development-and-calibration.pdf?ETag=a40ed14f8169c7582e7ec838a1a38b51 Brisbane River Catchment Flood Study (Detailed Model Calibration Report)] * [https://~~www.clarence~~richmondvalley.nsw.gov.au/~~page.asp?f=RES-FRE-61-54-36~~services/flood/ ~~Lower~~Richmond ~~Clarence~~River Flood ~~Model Update~~Study] * [https://www.clarence.nsw.gov.au/Council/Our-performance/Plans-and-strategies/Floodplain-Management-plans-flood-studies-and-animations# Lower Clarence Flood Study Update] * [http://www.kyogle.nsw.gov.au/cp_content/resources/Kyogle_Floodplain_Risk_Management_Study1126200917017.pdf Kyogle Flood Risk Management Study] * [https://www.kyogle.nsw.gov.au/infrastructure-environment/environment/kyogle-flood-study/ Kyogle Flood Risk Management Study] * [http://www.cassowarycoast.qld.gov.au/documents/1422210/42658658/0.%20Report%20part%201.pdf Cassowary Coast Regional Council Flood Study - Part 1] * [~~http~~https://www.cassowarycoast.qld.gov.au/~~documents~~downloads/~~1422210~~file/~~42658658~~1740/~~0.%20Report%20part%202.pdf~~johnstone-river-flood-study-vol-1-of-2-final ~~Cassowary~~Johnston ~~Coast Regional Council~~River Flood Study - ~~Part~~Volume 21] * [https://www.tweed.nsw.gov.au/files/assets/public/v/1/documents/property-and-rates/floods-and-stormwater/coastal-creeks-flood-study-2009.pdf Coastal Creeks Flood Study] * [http://www.cassowarycoast.qld.gov.au/documents/1422210/42658658/1.%20Drawing%20Addendum%20-%20Contents%20Calibration%20and%20Validation%20Resuts%20part%203.pdf Cassowary Coast Regional Council Flood Study - Drawing Addendum] * [~~http~~https://www.~~cassowarycoast~~northburnett.qld.gov.au/cwp-content/uploads/2016/~~document_library~~09/~~get_file?uuid=b8cb70fa~~3-~~3111~~Gayndah-~~4fc8~~Flood-~~91db~~Study-~~02a64504ea96&groupId=1422210~~Vol-1.pdf ~~Johnston River~~Gayndah Flood Study ~~- Volume 1~~] * [http://www.tweed.nsw.gov.au/Documents/Flooding/Tweed%20Valley%20Flood%20Study/TSC00290_TweedValleyFloodStudy2009Update.pdf Tweed Valley Flood Study] * [http://www.tweed.nsw.gov.au/item/890 Coastal Creeks Flood Study] * [http://www.northburnett.qld.gov.au/res/file/Gayndah%20Flood%20Study%20Vol%201.pdf Gayndah Flood Study] * [http://www.richmondvalley.nsw.gov.au/icms_docs/137639_Richmond_River_Flood_Mapping_Final_Report.pdf Richmond River Flood Mapping Study] = Hardware Benchmark Testing =