Abstract
Non-Point Source Pollution (NPS) caused by polluted and untreated stormwater runoff discharging into water bodies has become a serious threat to the ecological environment. Green infrastructure and gray infrastructure are considered to be the main stormwater management measures, and the issue of their cost-effectiveness is a widespread concern for decision makers. Multi-objective optimization is one of the most reliable and commonly used approaches in solving cost-effectiveness issues. However, many studies optimized green and gray infrastructure under an invariant condition, and the additional benefits of green infrastructure were neglected. In this study, a simulation-optimization framework was developed by integrated Stormwater Management Model (SWMM) and Non-dominated Sorting Genetic Algorithm (NSGA-II) to optimize green and gray infrastructure for NPS control under future scenarios, and a realistic area of Sponge City in Nanchang, China, was used as a typical case. Different levels of additional benefits of green infrastructure were estimated in the optimizing process. The results demonstrated that green-gray infrastructure can produce a co-benefit if the green infrastructure have appropriate Value of Additional Benefits (VAB), otherwise, gray infrastructure will be a more cost-effectiveness measure. Moreover, gray infrastructure is more sensitive than green infrastructure and green-gray infrastructure under future scenarios. The findings of the study could help decision makers to develop suitable planning for NPS control based on investment cost and water quality objectives.
Highlights
Rapid urbanization has resulted in increased impervious surface areas and increased surface pollutant load caused by increasing human production activities [1,2]
The calibration and validation values for both hydrology module and water quality module are greater than 0.5, and it indicates that the accuracy of the model is acceptable, which can be applied to further following studies
By observing the Pareto solution sets, we found that both green and gray infrastructure are more sensitive to climate change than urbanization
Summary
Rapid urbanization has resulted in increased impervious surface areas and increased surface pollutant load caused by increasing human production activities [1,2]. Rainfall washes off the surface which contains large pollutant load, resulting in large amounts of pollutants being carried in runoff. The untreated runoff that is discharged directly into receiving water bodies will cause serious Non-Point Source Pollution (NPS) [3]. Green infrastructure and gray infrastructure are considered as the main measures to control NPS [7,8] Traditional gray infrastructure, such as storage tanks, can intercept polluted runoff into receiving water bodies at the terminal, which can effectively alleviate the runoff pollution through centralized measures [9,10]. Jia et al found that the mixed green infrastructures were effective in removing pollutants from runoff, especially in removing NH3-N (ammonia nitrogen) (73%), Total
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