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Water Resources Management
Erschienen in: Water Resources Management 13/2015

01.10.2015

Development of Simulation-Optimization Model (MUSIC-GA) for Urban Stormwater Management

verfasst von: Majid Montaseri, Mahdi Hesami Afshar, Omid Bozorg-Haddad

Erschienen in: Water Resources Management | Ausgabe 13/2015

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Abstract

Urban development leads to replacement of impervious surfaces with pervious surfaces, vegetation and production of various environmental pollutants. In addition, this phenomenon has increased the devastating effects of urban stormwater and has exacerbated the water quality of many freshwater resources (surface and underground) throughout the world. To alleviate this condition, new models of urban stormwater systems, including Water Sensitive Urban Design (WSUD) as well as its software package, MUSIC, have been developed. Regarding the water sensitive urban design, some urban stormwater treatment devices have been proposed and implemented to alleviate the effects of land use changes and improve the quality of downstream water. Although this new models provide cost-effective urban stormwater management methods, it is very challenging to determine an optimal mixture of various treatment devices and minimize the cost of urban stormwater control systems in this regard. Traditionally, the optimum and cost-effective urban stormwater treatment systems have been developed using simulation models such as MUSIC on the basis of trial and error. It should be noted that the latter models require considerable time to get close to an optimal solution. In this study, a simulation-optimization model of urban stormwater management system has been developed using a combination of MUSIC simulation model and Genetic Algorithm thereof. The simulation-optimization model (MUSIC-GA) greatly reduces the computation time and facilitates direct access to absolute optimal solution. The results of a case study on the application of the developed model in Australia have also shown that there have been some desirable convergences between the results of the simulation-optimization model and absolute optimal solution over various implementations of the model.
Vorheriger Artikel Application of the Improved City Blueprint Framework in 45 Municipalities and Regions
Nächster Artikel Geophysical Monitoring of Ground Surface Deformation Associated with a Confined Aquifer Storage and Recovery Operation

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Literatur
Argue JR (2002) A new stormwater “source control” handbook for Australian practice: an outline bridges 10:53
Arnold CL Jr, Gibbons CJ (1996) Impervious surface coverage: the emergence of a key environmental indicator. J Am Plan Assoc 62:243–258CrossRef
Asmadi A, El-Shafie A, Razali SFM, Zawawi Samba M (2014) Reservoir optimization in water resources: a review. Water Resour Manag 28:3391–3405CrossRef
Barrett ME, Walsh PM, Malina JF Jr, Charbeneau RJ (1998) Performance of vegetative controls for treating highway runoff. J Environ Eng 124:1121–1128CrossRef
Booth DB, Jackson CR (1997) Urbanization of aquatic systems: degradation thresholds, stormwater detection, and the limits of mitigation. J Am Water Resour Assoc 33:1077–1090CrossRef
Bozorg Haddad O, Khosroshahi S, Zarezadeh M, Javan P (2013) Development of simulation-optimization model for protection of flood areas. J Water Soil 27(3):462–471
Brix H (1994) Use of constructed wetlands in water pollution control: historical development, present status, and future perspectives. Water Sci Technol 30:209–224
Chiew F, McMahon T (1997) Modelling dally runoff and pollutant load from urban catchments. Water 24:16–17
Davis AP, Shokouhian M, Sharma H, Minami C (2006) Water quality improvement through bioretention media: nitrogen and phosphorus removal. Water Environ Res 78:284–293CrossRef
Dietz ME (2007) Low impact development practices: a review of current research and recommendations for future directions. Water Air Soil Pollut 186:351–363CrossRef
Donofrio J, Kuhn Y, McWalter K, Winsor M (2009) Water-sensitive urban design: an emerging model in sustainable design and comprehensive water-cycle management. Environ Pract 11:179–189CrossRef
Duncan H (1999) Urban stormwater quality: a statistical overview. Report 99/3. Cooperative Research Center for Catchment Hydrology, Melbourne, Australia
Egodawatta P (2007) Translation of small-plot scale pollutant build-up and wash-off measurements to urban catchment scale. Queensland University of Technology, Brisbane. PhD Thesis
Elliott A (1998) Model for preliminary catchment-scale planning of urban stormwater quality controls. J Environ Manag 52:273–288CrossRef
Ellis J (2000) Infiltration systems: a sustainable source‐control option for urban stormwater quality management? Water Environ J 14:27–34CrossRef
Eriksson E et al (2007) Selected stormwater priority pollutants—a European perspective. Sci Total Environ 383:41–51CrossRef
Fletcher TD, Peljo L, Fielding J, Wong TH, Weber T (2002) The performance of vegetated swales for urban stormwater pollution control. In: Global solutions for urban drainage, Proc. of the Ninth Int. Conf. on Urban Drainage, Sept 8–13 2002, Portland, OR
Fletcher TD, Deletic AB, Hatt BE, Conservation AW, Scientific C, Association AW (2004) A review of stormwater sensitive urban design in Australia. Australian Water Conservation and Reuse Research Program
Goldberg DE, Korb B, Deb K (1989) Messy genetic algorithms: motivation, analysis, and first results. Complex Syst 3:493–530
Goonetilleke A, Thomas EC (2004) Water quality impacts of urbanisation: relating water quality to urban form. Centre for Built Environment and Engineering Research, Queensland University of Technology. http://​eprints.​qut.​edu.​au/​4210/​
Harrell LJ, Ranjithan SR (2003) Detention pond design and land use planning for watershed management. J Water Resour Plan Manag 129:98–106CrossRef
Hogan DM, Walbridge MR (2007) Best management practices for nutrient and sediment retention in urban stormwater runoff. J Environ Qual 36:386–395CrossRef
Holland JH (1992) Adaptation in natural and artificial systems: an introductory analysis with applications to biology, control, and artificial intelligence. MIT Press, Cambridge
Hunt W, Jarrett A, Smith J, Sharkey L (2006) Evaluating bioretention hydrology and nutrient removal at three field sites in North Carolina. J Irrig Drain Eng 132:600–608CrossRef
Imteaz MA, Ahsan A, Rahman A, Mekanik F (2013) Modelling stormwater treatment systems using MUSIC: accuracy. Resour Conserv Recycl 71:15–21CrossRef
Kadlec R, Knight R (1996) Wetland microbial and plant communities. Treatment wetlands :119–131
Lee JG, Heaney JP, Lai F-H (2005) Optimization of integrated urban wet-weather control strategies. J Water Resour Plan Manag 131:307–315CrossRef
Lee JG, Selvakumar A, Alvi K, Riverson J, Zhen JX, Shoemaker L, Lai F-H (2012) A watershed-scale design optimization model for stormwater best management practices. Environ Model Softw 37:6–18CrossRef
Li F-F, Wei J-H, Fu X-D, Wan X-Y (2012) An effective approach to long-term optimal operation of large-scale reservoir systems: case study of the three gorges system. Water Resour Manag 26:4073–4090CrossRef
Liu A, Egodawatta P, Guan Y, Goonetilleke A (2013) Influence of rainfall and catchment characteristics on urban stormwater quality. Sci Total Environ 444:255–262CrossRef
Lloyd S, Wong T (2008) Paired catchment storm event monitoring: assessing the performance of a bioretention system (rain garden). Aust J Water Resour 12:133
MacLeod I, Savage A, Pahl O, Baird J (2008) Decline in microbial activity does not necessarily indicate an end to biodegradation in MSW-biowaste: a case study. Bioresour Technol 99:8626–8630CrossRef
Masamba WR, Mazvimavi D (2008) Impact on water quality of land uses along Thamalakane-Boteti River: an outlet of the Okavango Delta. Phys Chem Earth A/B/C 33:687–694CrossRef
Matamoros V, García J, Bayona JM (2005) Behavior of selected pharmaceuticals in subsurface flow constructed wetlands: a pilot-scale study. Environ Sci Technol 39:5449–5454CrossRef
Moreton Bay Waterways (2006) Water sensitive urban design: technical design guidelines for South East Queensland. Moreton Bay Waterways and Catchment Partnership
MUSIC Development Team (2012) Music by eWater user manual. eWater CRC
Rani D, Moreira MM (2010) Simulation–optimization modeling: a survey and potential application in reservoir systems operation. Water Resour Manag 24:1107–1138CrossRef
Reichold L, Zechman EM, Brill ED, Holmes H (2009) Simulation-optimization framework to support sustainable watershed development by mimicking the predevelopment flow regime. J Water Resour Plan Manag 136:366–375CrossRef
Reis L, Bessler F, Walters G, Savic D (2006) Water supply reservoir operation by combined genetic algorithm–linear programming (GA-LP) approach. Water Resour Manag 20:227–255CrossRef
Sample DJ, Liu J (2014) Optimizing rainwater harvesting systems for the dual purposes of water supply and runoff capture. J Clean Prod 75:174–194CrossRef
Sharkey LJ (2006) The performance of bioretention areas in North Carolina: a study of water quality, water quantity, and soil media
Somes N, Fabian J, Wong T (2000) Tracking pollutant detention in constructed stormwater wetlands. Urban Water 2:29–37CrossRef
Sonneman JA, Walsh CJ, Breen PF, Sharpe AK (2001) Effects of urbanization on streams of the Melbourne region, Victoria, Australia. II. Benthic diatom communities. Freshw Biol 46:553–565CrossRef
Taylor A (2005) Structural stormwater quality BMP cost–size relationship information from the literature. Cooperative Research Centre for Catchment Hydrology, Melbourne, pp 53–64
Walsh CJ, Roy AH, Feminella JW, Cottingham PD, Groffman PM, Morgan RP (2005) The urban stream syndrome: current knowledge and the search for a cure. J N Am Benthol Soc 24:706–723CrossRef
Walsh CJ, Fletcher TD, Ladson AR (2009) Retention capacity: a metric to link stream ecology and storm-water management. J Hydrol Eng 14:399–406CrossRef
Water by Design (2006) The water sensitive urban design technical design guidelines for South East Queensland SEQ Healthy Waterways Partnership Brisbane, Queensland
Wong T, Geiger W (1997) Adaptation of wastewater surface flow wetland formulae for application in constructed stormwater wetlands. Ecol Eng 9:187–202CrossRef
Wong T, Breen P, Lloyd S, Walker T, Dahnke B, Wootton R (2000) Suspended solids removal in stormwater wetlands: quantifying the role of aquatic macrophytes. In: Proceedings of the Seventh International Conference on Wetland Systems for Water Pollution Control. pp 1545–1552
Zhang G, Hamlett M, Reed P (2006) Multi-objective optimization of low impact development scenarios in an urbanizing watershed. In: Proceedings of the AWRA Annual Conference, Baltimore, USA, pp 1–7
Zinger Y, Blecken G-T, Fletcher TD, Viklander M, Deletić A (2013) Optimising nitrogen removal in existing stormwater biofilters: benefits and tradeoffs of a retrofitted saturated zone. Ecol Eng 51:75–82CrossRef
Metadaten
Titel
Development of Simulation-Optimization Model (MUSIC-GA) for Urban Stormwater Management
verfasst von
Majid Montaseri
Mahdi Hesami Afshar
Omid Bozorg-Haddad
Publikationsdatum
01.10.2015
Verlag
Springer Netherlands
Erschienen in
Water Resources Management / Ausgabe 13/2015
Print ISSN: 0920-4741
Elektronische ISSN: 1573-1650
DOI
https://doi.org/10.1007/s11269-015-1082-z

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