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Evaluation on the hydrologic effects and water quality improvement after applying an infiltration trench and a tree box filter as low impact development (LID) techniques
- 언어ENG
- URLhttps://db.koreascholar.com/Article/Detail/303951
Recently, Low Impact Development (LID) technology has been developed and used to collect, infiltrate, filter and confine runoff in order to enhance the storm water quality and to preserve the natural water cycle. In this study, two technologies were employed in order to treat runoff from an impervious surface such as a paved road and a parking lot. The infiltration trench which was constructed to manage stormwater runoff from a paved road abates and temporarily holds stormwater runoff and removes sediments and attached pollutants within the sub-surface structure prior to infiltration into the subsoils. On the other hand, the tree box filter which incorporates trees and other gardening plants to regulate and treat runoff drains the stormwater from a parking lot. The infiltration trench and tree box filter represent only 1% of the catchment area that they drain. This research was conducted to evaluate the hydrologic and water quality effects of the infiltration trench and tree box filter after LID. Storm event monitoring was conducted for the infiltration trench from May 2009 to August 2014 with a total of 38 storm events and 24 storm events in the tree box filter from July 2010 to July 2014. Hydrologic (i.e., total rainfall, antecedent dry day (ADD), runoff volume, etc.) and water quality (i.e. particulates, nutrients, organics, and heavy metals) parameters were analyzed before and after LID. The major findings of this study are as follows: The runoff before LID was discharged directly to the sewers and could lead to local flooding of transport systems and pollution to receiving waters during intense storm events. But, after LID the runoff was partially reduced for atleast 50% on the two (2) urban landuses. Furthermore, the pollutant concentration before LID was observed to be at high concentrations. However, it was reduced to an approximate of 60% after LID. With the combined processes of infiltration, filtration, retention and evapotranspiration that were provided by the infiltration trench and tree box filter, the runoff was partially reduced and a significant decrease in pollutant concentration has been observed. The results and findings of this study will help facilitate the LID for further application.
