Authors: Ranjan Sarukkalige, Joseph Sanjaya Ma

Abstract:

Flood management is one of the important fields in urban storm water management. Floods are influenced by the increase of huge storm event, or improper planning of the area. This study mainly provides the flood protection in four stages; planning, flood event, responses and evaluation. However it is most effective then flood protection is considered in planning/design and evaluation stages since both stages represent the land development of the area. Structural adjustments are often more reliable than nonstructural adjustments in providing flood protection, however structural adjustments are constrained by numerous factors such as political constraints and cost. Therefore it is important to balance both adjustments with the situation. The technical decisions provided will have to be approved by the higher-ups who have the power to decide on the final solution. Costs however, are the biggest factor in determining the final decision. Therefore this study recommends flood protection system should have been integrated and enforces more in the early stages (planning and design) as part of the storm water management plan. Factors influencing the technical decisions provided should be reduced as low as possible to avoid a reduction in the expected performance of the proposed adjustments.

Keywords: Urban Flood, flood protection, water management, storm water, cost,

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1072664

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References:

[1] Bureau of Transport and Regional Economics. 2002. Benefits of Flood Mitigation in Australia. Report 106. Canberra: Bureau of Transport and Regional Economics.
[2] M.P. Wanielista,, and Yousef A. Yousef. 1993. Storm water Management. John Wiley & Sons, USA.
[3] P.H. Larsen, S. Goldsmith, O. S. Meghan, L. Wilson, K. Strzepek, P.Chinowsky, and B.Saylor. 2008. Estimating future costs for Alaska public infrastructure at risk from climate change. Global Environmental Change 18, 442-457.
[4] C. Zoppou,. 2001. Review of urban storm water models. Environmental Modeling & Software 16, 195-231.
[5] A.H., Elliot, and S.A. Trowsdale. 2007. A review of models for low impact urban storm water drainage. Environmental Modelling & Software 22, 394-405.
[6] S. Åstebol, S. Ole, T. H. Jacobsen, and O. Simonsen, 2004. Sustainable storm water management at Fornebu - from an airport to an industrial and residential area of the city of Oslo, Norway, Science of the Total Environment 334-335