NT Remote Communities Storm Tide Study and Inundation Mapping
Systems Engineering Australia Pty Ltd
Northern Territory. Department of Land Resource Management
E-Publications; E-Books; PublicationNT; J1507-PR001B
2016-07-01
Made available via the Publications (Legal Deposit) Act 2004 (NT).; 'This report documents tropical cyclone (TC) storm tide hazard analyses that will provide the basis for reliable risk analyses of major remote towns and indigenous communities on the West Coast, Arnhem Land and Tiwi Islands.' - Introduction
This Storm Surge Study Report was produced with funding provided by the Northern Territory and Australian Governments through the Natural Disaster Resilience Program. 'Numerical Modelling and Risk Assessment' - on cover.; Made available via the Publications (Legal Deposit) Act 2004 (NT).
Executive summary -- Introduction -- The study localities -- Methodology to assess the storm tide hazard -- Simulation model results -- Conclusion -- References -- List of Appendices A-C.
English
Storm surges; Storm surges; Cyclones; Maps; Mathematical models
Northern Territory Government
Palmerston
J1507-PR001B
vi, 62, 4,3,8 pages : colour illustrations, colour maps ; 30 cm.
application/pdf
Attribution International 4.0 (CC BY 4.0)
Northern Territory Government
https://creativecommons.org/licenses/by/4.0/
https://hdl.handle.net/10070/267238
https://hdl.handle.net/10070/443309
NT Department of Land Resource Management NT Remote Communities Storm Tide Study and Inundation Mapping J1507-PR001B iv Systems Engineering Australia Pty Ltd July 2016 Figure 3-12 Example of the modelling of the TC Ingrid storm tide at Minjilang. 35 Figure 3-13 Example of the modelling of the TC Monica storm tide at Maningrida. 36 Figure 3-14 Example synthetic TC tracks chosen for modelling near Darwin for the 180 deg case. 39 Figure 3-15 Example SEAsim visualisation of the 1000 y ARI total storm tide variability near Milingimbi and Galiwinku. 40 Figure 4-1 Total Storm Tide Levels (m AHD) by Year 2100. 42 Figure 4-2 Total Storm Tide Levels (m HAT) by Year 2100. 43 Figure 4-3 Total Storm Tide Levels (m Crest) by Year 2100. 44 Figure 4-4 Year 2100 storm tide water level components at each of the study sites: Wadeye, Wurrumiyanga and Pirlangimpi. 46 Figure 4-5 Year 2100 storm tide water level components at each of the study sites: Milikapiti, Minjilang and Warruwi. 47 Figure 4-6 Year 2100 storm tide water level components at each of the study sites: Maningrida, Milingimbi and Galiwinku. 48 Figure 4-7 Example of mapped extents of simulated year 2100 total storm tide water levels Wadeye. 49 Figure 4-8 Example of mapped extents of simulated year 2100 total storm tide water levels Wurrumiyanga. 50 Figure 4-9 Example of mapped extents of simulated year 2100 total storm tide water levels Pirlangimpi. 51 Figure 4-10 Example of mapped extents of simulated year 2100 total storm tide water levels Milikapiti. 52 Figure 4-11 Example of mapped extents of simulated year 2100 total storm tide water levels Minjilang. 53 Figure 4-12 Example of mapped extents of simulated year 2100 total storm tide water levels Warruwi. 54 Figure 4-13 Example of mapped extents of simulated year 2100 total storm tide water levels Maningrida. 55 Figure 4-14 Example of mapped extents of simulated year 2100 total storm tide water levels Milingimbi. 56 Figure 4-15 Example of mapped extents of simulated year 2100 total storm tide water levels Galiwinku. 57