Your search keyword '"Honggeun Lim"' showing total 3 results

1. Evaluation on the Application of the Estimation of Time of Concentration Using Real Rainfall-Runoff Events in Small Forest Watershed

Author

Jaehoon Kim, Honggeun Lim, and Hyung Tae Choi

Subjects

Hydrology, Estimation, Watershed, Geography, Rainfall runoff, Cross-correlation, Lag, Rational method, Time of concentration, Design flood

Abstract

This study was carried to figure out appropriate method for time of concentration used in the Rational method at design flood estimation. For 6 small forest watershed, time of concentration was obtained from time of concentration formulas including Kirpich Rziha, Kraven (I), Kraven (II) and SCS lag method and the results from these were compared to the results from cross correlation function based on real rainfall runoff events. The results of cross correlation function ranged from 12.9 to 28.8 minutes and the average difference between SCS lag method and cross correlation function was 2.5 minutes. SCS lag method would be feasible to estimate time of concentration in small forest watershed.

Published

2015

2. Analysis of Suspended Solid Generation with Rainfall-Runoff Events in a Small Forest Watershed

Author

Honggeun Lim, Hyung-Tae Choi, and Jaehoon Kim

Subjects

Hydrology, Suspended solids, Rainfall runoff, Watershed, Environmental science, Sediment, Rating curve

Abstract

This study was carried out to investigate the characteristics of suspended solid concentration in small forest watershed, Hwacheon, Gangwondo. For five rainfall events from July 2013 to August 2013, rainfall, discharge, and suspended solid load has been measured. The results showed that the fist flush effect was observed for suspended solid in each rainfall event, sediment rating curve was obtained with at rising limb and at falling limb, and EMC (event mean concentration) of suspended solid was calculated to 9.4 mg/L. EMC was compared to the values from the watershed that has various land use types and EMC from forest watershed was much lower that from the crop, paddy or low covered forest watershed.

Published

2015

3. Applicability Assessment of Estimation Methods for Baseflow Recession Constants in Small Forest Catchments

Author

Hyunje Yang, Hyung Tae Choi, and Honggeun Lim

Subjects

lcsh:Hydraulic engineering, media_common.quotation_subject, 0208 environmental biotechnology, Geography, Planning and Development, Drainage basin, Hydrograph, 02 engineering and technology, Aquatic Science, Biochemistry, Recession, recession constant estimation method, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Forest cover, Linear regression, small forest catchment, baseflow recession characteristics, Water Science and Technology, media_common, Hydrology, lcsh:TD201-500, geography, Baseflow, geography.geographical_feature_category, 020801 environmental engineering, hydrograph analysis, Deciduous, Environmental science, Estimation methods

Abstract

In South Korea, since small forest catchments are located upstream of most river basins, the baseflow from these catchments is important for a clean water supply to downstream areas. Baseflow recession analysis is widely recognized as a valuable tool for estimating the baseflow component of the stream hydrograph. However, few studies have applied this tool to small forest catchments. So, this study was conducted to assess the applicability of the recession analysis methods proposed in previous studies. The data used were long-term rainfall-runoff data from 1982 to 2011 in the Gwangneung coniferous (GC) and deciduous (GD) forest catchment in Gyeonggi-do, South Korea. For the applicability assessment, six recession constant estimation methods, which were used by previous studies, were selected. The recession constants of the GC and GD catchments were calculated, and applicability assessments were conducted by comparing the recession predictions and baseflow separations. As a result, the recession constants for GC and GD were 0.8480 and 0.9235, respectively. This clear difference may be due to the different forest cover in each area. The correlation regression line, AR(1) model, and the Vogel and Kroll method showed lower error rates and appropriate baseflow indexes compared with other methods.

Published

2018