Jongrak Baek scite author profile

Jongrak Baek

5Publications

28Citation Statements Received

59Citation Statements Given

How they've been cited

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106

Affiliations

Korea University, Korea Research Institute for Human Settlements, Planetary Science Institute

Publications

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Trace organic contaminants and their sources in surface sediments of Santa Monica Bay, California, USA

Venkatesan

Merino

Baek

et al. 2010

Marine Environmental Research

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International audienceSpatial distribution of selected contaminants in the surface sediments of Santa Monica Bay (SMB), California was investigated. Sediments were analyzed for DDTs (DDT and metabolites), polychlorinated biphenyls (PCBs), polycyclic aromatic hydrocarbons (PAHs), linear alkylbenzenes (LABs) and coprostanol. Effluent samples from the Hyperion Treatment Plant (HTP), which discharges treated municipal wastewater effluents into SMB, were also analyzed. The inter-correlation in the distribution trends of contaminants was examined. The concentrations of contaminants were interpolated in a geographic information system to visualize their spatial distribution in the Bay. Inventories of the contaminants were also estimated

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Assessing the significance of evapotranspiration in green roof modeling by SWMM

Limos

Mallari

Baek

et al. 2018

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Green roof is a low impact development (LID) practice used to mitigate imperviousness in urban areas and to reduce flood risks. In order to have sufficient designs and accurate runoff predictions, computer models should be utilized with full understanding of green roofs' hydrologic processes. Evapotranspiration is usually considered important by researchers in the water balance modeling of a green roof. The Storm Water Management Model (SWMM) version 5.1 is widely utilized rainfall-runoff modeling software which has LID controls capable of modeling green roofs. A previous study has evaluated the performance of this model in green roof simulations for single events without considering evapotranspiration in its application, but attained negative outcomes. Thus, the objective of this study is to determine the significance of considering evapotranspiration in producing accurate runoff simulations specifically using SWMM 5.1. The results of this study have shown that when evapotranspiration was not considered, simulations failed to agree with observed values, whereas when evapotranspiration was considered, simulated runoff volumes attained a very good fit with the observed runoff volumes proving the significance of evapotranspiration as an important parameter in green roof modeling.

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Modelling of suspended sediment in a weir reach using EFDC model

Pak

Mallari

Baek

et al. 2015

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Construction of hydraulic structures often leads to alteration of river dynamics and water quality. Suspended solids entering the upstream of the weir cause adverse effects to the hydroecological system and, therefore, it is necessary to build a modelling system to predict the changes in the river characteristics for proper water quality management. In this study, the discharges and total suspended solids upstream and downstream of the Baekje Weir installed in Geum River, Korea, was modelled using the environmental fluid dynamics code (EFDC) model. The resulting trend of four rainfall events shows that as rainfall increases, the total suspended solids (TSS) concentration increases as well. For the two larger events, at the upstream of the weir, TSS was observed to decrease or remain constant after the rainfall event depending on the lowering of the open gate. At the downstream, TSS supply was controlled by the weir during and after the rainfall event resulting in decline in the TSS concentration. The modelling produced good results for discharge based on %Diff. (4.37-6.35), Nash-Sutcliffe efficiency (NSE) (0.94-0.99) and correlation coefficient (r) (0.97-0.99) values as well as for TSS with acceptable values for %Diff. (12.08-14.11), NSE (0.75-0.81) and r (0.88-0.91), suggesting good applicability of the model for the weir reach of the river in the study site.

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Considering the effect of groundwater on bioretention using the Storm Water Management Model

Kim

Mallari

Baek

et al. 2019

Journal of Environmental Management

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Quantification of Baseflow Contribution to Nutrient Export from a Agricultural Watershed

Kim¹,

Yoon²,

Park³

et al. 2015

J. Korean Soc. Water Wastewater

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Jongrak Baek

Trace organic contaminants and their sources in surface sediments of Santa Monica Bay, California, USA

Assessing the significance of evapotranspiration in green roof modeling by SWMM

Modelling of suspended sediment in a weir reach using EFDC model

Considering the effect of groundwater on bioretention using the Storm Water Management Model

Quantification of Baseflow Contribution to Nutrient Export from a Agricultural Watershed

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