Young Min Koo scite author profile

Young Min Koo

5Publications

3Citation Statements Received

0Citation Statements Given

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Inha University

Publications

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A Study on Runoff Analysis of Urban Watershed by Hydrologic Infiltration Experiment of Permeable Pavement

Koo¹,

Jo²,

Kim³

et al. 2013

Journal of The Korean Society of Civil Engineers

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Recently, due to increase of the impervious layer, the storage of surface layer has been reduced. Otherwise the peak runoff and the total surface runoff have been raised. Because of larger amount of the peak runoff and the rapid time of concentration, the flood damage of the urban watershed was increased. The groundwater level is descended by reducing the amount of rainfall that infiltrated into the soil. Thereby the hydrologic cycle is degenerated by the dry stream. Therefore, in this study, the evaluation and the quantitative analysis of the percolation effect were performed through the infiltration experiment of permeable pavement, which is one of the ways that can reduce the problem of the dry stream. Also the SWMM model is used to analyze the effect of the hydrologic cycle for permeable pavement in Changwon stream and Nam stream watersheds, with the coefficient of permeability from the infiltration experiments.

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A Study on Design Method and Effect Analysis of Rainwater Harvesting Facility for Efficient Use

Kang¹,

Koo²,

Lee³

2015

Journal of Korean Society of Hazard Mitigation

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Removal of Suspended Solids from Stormwater Runoff Using a Fabric Filter System

Koo¹,

Kim²,

Seo³

2015

Journal of Korean Society of Environmental Engineers

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Non-point source pollution associated with suspended solids in stormwater has been known to often adversely affect surface water ecosystems. Various methods of treating stormwater in the basin area before the stormwater reaches the receiving body of water have been developed. However, these treatment methods tend to be costly to install and also to maintain. In this study, an economical way of removing TSS (total suspended solids) from stormwater runoff with a fabric filter system was developed. Polyester was chosen as a fabric-filter material, because it was found to be economical in cost and relatively resistant to various chemicals. An experimental device was developed and used to determine filtration rates through polyester fabric samples of a series of several pore-opening sizes (20 µm to 94 µm) under a series of water-heads (0.25 to 1 m). It was found that the filtration rate increased as the size of water head increased. It was also found that the smaller the pore size of the fiber filter was, the higher the TSS removal efficiency was. However, the TSS removal efficiency was not found to be much different among the filters with different sizes of pore opening due to the fact that most mass of TSS was associated with large particles.

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Analysis of Non-point Pollution Source Reduction by Permeable Pavement

Koo¹,

Kim²,

Park³

2014

Journal of Korea Water Resources Association

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As the Urban area grows and more land is developed both within the city and in surrounding areas, hydrologic functions of the natural water cycle are altered. Urbanization creates impervious areas that negatively impact stormwater runoff characteristics. these changes to the natural hydrologic cycle result in the increased flooding, decreased groundwater recharge, increased urban heat island effects. Finally, the land use and other activities result in accumulation and washoff of pollutants from surface, resulting in water quality degradation. Therefore, in this study, evaluating and quantitative analysis of the percolation effect through infiltration experiment of permeable pavement, which is one of the ways that can reduce the problem of the dry stream. Also the SWMM model is used to study the effect of the hydrologic cycle for permeable pavement block contribution.

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An Experimental Study on Hydraulic Stability of Non-toxic Revetment Block

Kim¹,

Koo²,

Kim³

et al. 2013

Journal of The Korean Society of Civil Engineers

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The purpose of this study is to examine the hydraulic stability of non-toxic revetment technique for eco-friendly design of the domestic river restoration. Recently, instead of the flood control function-oriented river management policy for the engineering efficiency, the improvement of the environmental performance for the ecological river restoration project is implemented. However, the inappropriate hydraulic design criteria of the new revetment technique happen to the economic losses at flood season frequently. The hydraulic stability of the riprap and the block include the banks of rivers, riverbed protection, scour protection and so on. In this study, the high speed experimental channel was developed, which has the maximum velocity of 3.5 m/s, to perform the hydraulic experiments of the block method with non-toxic glue with various conditions to find the critical velocity of the revetment block for the hydraulic stability.

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Young Min Koo

A Study on Runoff Analysis of Urban Watershed by Hydrologic Infiltration Experiment of Permeable Pavement

A Study on Design Method and Effect Analysis of Rainwater Harvesting Facility for Efficient Use

Removal of Suspended Solids from Stormwater Runoff Using a Fabric Filter System

Analysis of Non-point Pollution Source Reduction by Permeable Pavement

An Experimental Study on Hydraulic Stability of Non-toxic Revetment Block

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