Modelling Hydrology of a Single Bioretention System with HYDRUS-1D

الملخص EN

A study was carried out on the effectiveness of bioretention systems to abate stormwater using computer simulation.

The hydrologic performance was simulated for two bioretention cells using HYDRUS-1D, and the simulation results were verified by field data of nearly four years.

Using the validated model, the optimization of design parameters of rainfall return period, filter media depth and type, and surface area was discussed.

And the annual hydrologic performance of bioretention systems was further analyzed under the optimized parameters.

The study reveals that bioretention systems with underdrains and impervious boundaries do have some detention capability, while their total water retention capability is extremely limited.

Better detention capability is noted for smaller rainfall events, deeper filter media, and design storms with a return period smaller than 2 years, and a cost-effective filter media depth is recommended in bioretention design.

Better hydrologic effectiveness is achieved with a higher hydraulic conductivity and ratio of the bioretention surface area to the catchment area, and filter media whose conductivity is between the conductivity of loamy sand and sandy loam, and a surface area of 10% of the catchment area is recommended.

In the long-term simulation, both infiltration volume and evapotranspiration are critical for the total rainfall treatment in bioretention systems.