Your search keyword '"Soon-Kuk Kwun"' showing total 30 results

1. A mathematical erosion model to simulate soil losses in agricultural watersheds

Author

Soon-kuk Kwun

Published

2018

2. Estimation of pollutant loads in an estuarine reservoir considering pollution source characteristics and seasonal variation

Author

Myung-Chul Eom, Soon-Kuk Kwun, and Inhong Song

Subjects

Watershed management, Pollutant, Hydrology, Environmental Engineering, Watershed, Total maximum daily load, Environmental science, Water quality, Water pollution, Surface runoff, Agronomy and Crop Science, Time of concentration, Water Science and Technology

Abstract

The Total Maximum Daily Load (TMDL) program is an integrated process of watershed assessment and management to address surface water quality impairment. The management of organic contaminants and nutrients is a primary concern in conserving surface water bodies. Watershed-scale pollutant loads simulation can assist stakeholders and watershed planners in making decisions on immediate and long-term land use schemes to improve water quality. However, the behavior of contaminants in a watershed needs to be characterized prior to such model applications. The objectives of this study were to characterize point and nonpoint pollutants runoff at a watershed scale and to develop a Pollutant Load Calculation Model (PLCM), which facilitates the estimation of pollutant delivery to a watershed outlet. The developed model was applied for the six sub-watersheds of the Saemangeum estuarine watershed in Korea, where a large tidal reclamation project has been underway. Two years stream flow and water quality data were used for the model calibration, while 1 year data were utilized for the model validation. The model calibration resulted in the R 2 values of 0.58, 0.53, and 0.35 for BOD, TN, and TP, respectively. Overall performance for the validation period was similar with that for the calibration period although the R 2 values were slightly decreased. The PLCM tends to substantially under or overestimate delivery pollutants loads during the summer rainy seasons when most rainfall events occur. This is probably because once-a-month-measured water quality data, which might not represent appropriately monthly water quality, particularly, for rainy seasons, were used for the loads calculation. Thus, more frequently monitored water quality data should be used for the delivery loads estimation at least for a rainy season in order to improve the PLCM performance. Nevertheless, the developed model took the pollutant reduction process into account, which is not allowed with the conventional unit loading method, and furthermore temporal variations of pollutant loads based on stream flows were also incorporated into the pollutant loads estimation. The developed PLCM can be a useful tool to assess pollutants delivery loads at a watershed scale and thus assist decision makers in developing watershed pollution management schemes.

Published

2010

3. Water quality monitoring and multivariate statistical analysis for rural streams in South Korea

Author

Chul-Mann Choi, Soon-Kuk Kwun, Song-Bae Kim, and Jin Ho Kim

Subjects

Biochemical oxygen demand, Hydrology, Suspended solids, Environmental Engineering, business.industry, Water supply, STREAMS, Environmental science, Sample variance, Water quality, Water pollution, business, Surface runoff, Agronomy and Crop Science, Water Science and Technology

Abstract

South Korea is located in the Asian monsoon region, and paddy rice farming is one of the important agricultural activities, which may contribute to the non-point source pollution of inland water bodies along with rainfall runoff. The status of water quality in rural streams located throughout South Korea was examined in this study by water quality monitoring and statistical analysis. Totally six surveys were conducted in 2003 and 2005 to monitor 300 streams located in rural subwatersheds; these streams are affected by agricultural activities and water supply for agricultural practices. The monitoring was performed at the terminal point of each subwatershed. In each study year, the streams were monitored in the three hydrological periods (April, July, and October) to observe differences in the impacts of agricultural activity and rainfall pattern. During the surveys, 15 water quality parameters were measured and interpreted using multivariate statistical methods including factor analysis and cluster analysis. Results show that the water quality of the rural streams monitored in this study appeared to meet the Korean water quality criteria for agricultural use, which are 8.0 and 100 mg/L for biochemical oxygen demand and suspended solids, respectively. In terms of organic contamination and suspended solids, the best stream water quality was observed in October compared to other periods. This can be attributed to the fact that October follows the rice-harvesting period and has low rainfall; thus the streams are probably less affected by agricultural activities and surface runoff. The three hydrological periods did not show much variation in the nitrogen and phosphorus parameters related to stream water nutrient conditions. Factor analysis indicates that the first five factors for April explained about 67% of the total sample variance. In July, the first four factors explained about 60% of the total variance, while the first four factors for October explained about 65%. Cluster analysis reveals that the streams could be divided into four groups in April and October and five groups in July. The box-and-whisker plots of the physicochemical variables indicate that Group A had the best water quality among the groups. This study demonstrates that the rural stream water quality of South Korea in the Asian monsoon region can be greatly affected by agricultural activities such as paddy rice farming and rainfall patterns.

Published

2009

4. Operational Strategy of Anaerobic Digesters Considering Energy Balance

Author

Soon-Kuk Kwun and Seonggu Hong

Subjects

Anaerobic digestion, Engineering, Food waste, Biogas, Waste management, business.industry, Heat recovery ventilation, Digestate, Slurry, Energy balance, Biodegradable waste, business

Abstract

Anaerobic digestion system is getting more attractive in that it produces biogas in the process of organic waste stabilization. Net energy production is important when biogas production is concerned. In this study, net energy production was evaluated with respect to biogas production and heat losses in a hypothetical digester. Under the condition of digester operation with slurry inflow of 5% of TS, additional fuel is required to maintain digester temperature during the winder season. Substrate therefore, needs to have higher VS contents through co-digestion of silage or food waste that has greater values of methane production rate. Heating input slurry is important in cold season, which covers over 80% of heating requirement. Heat recovery from digestate is valuable to reduce the use of biogas for heating. It seems desirable to minimize slurry inflow when temperature is very low. Psychrophilic digestion may be a feasible option for reducing heating requirement.

Published

2008

5. Characteristics of nutrient concentrations during low streamflow in Korean watersheds with paddy fields

Author

Soon-Kuk Kwun, Seung Young Oh, and Jin S. Kim

Subjects

Hydrology, Irrigation, Denitrification, Soil Science, chemistry.chemical_element, Nitrogen, Dilution, Nutrient, chemistry, Streamflow, Environmental science, Paddy field, Total phosphorus, Agronomy and Crop Science

Abstract

We investigated nutrient concentrations, during periods of low streamflow, from medium-scale watersheds (5.1-15.3 km²) with paddy fields. Data were collected both during irrigation and non-irrigation periods, from 1996 to 2000. Mean total nitrogen (TN) concentration during irrigation periods (2.6 mg l⁻¹) was significantly lower than during non-irrigation periods (6.2 mg l⁻¹), most likely due to the dilution effect of higher discharge and nitrogen removal in the forest and paddy field by denitrification. Mean total phosphorus (TP) concentration during irrigation periods (0.13 mg l⁻¹) was higher than during non-irrigation periods (0.09 mg l⁻¹). Therefore, the mean TN:TP ratio during irrigation periods was 20:1, compared to 67:1 during non-irrigation periods; hence the possibility of cyanobacterial blooms was higher during the peak of irrigation. During irrigation periods, TN concentrations in the study watersheds displayed no relationship with discharge, similar to the finding for the paddy fields. Paddy field irrigation may impact on nitrogen concentrations in low streamflow at the watershed scale.

Published

2007

6. Interfacing Near- and Far-Field Models to Simulate Submerged Freshwater Discharge Mixing in Seawater

Author

Seong Goo Hong, Soon Kuk Kwun, and Yeong Wook Park

Subjects

Hydrology, 010504 meteorology & atmospheric sciences, Field (physics), 010505 oceanography, Point source, Flow (psychology), Ocean Engineering, Near and far field, Mechanics, 01 natural sciences, Dilution, Physics::Fluid Dynamics, Modeling and Simulation, Environmental science, Seawater, Boundary value problem, Mixing (physics), 0105 earth and related environmental sciences, Civil and Structural Engineering

Abstract

A 3D interfacing zonal (TDIZ) model was developed for the submerged bottom-flow-discharge from a sea-bottom freshwater drainage facility and used to analyze both initial mixing in the near field and the advection-dispersion process in the far field with ambient water flow. The mixing characteristics of the freshwater discharge and the applicability of the model for each field were verified using data from field measurements. The predicted salinity distribution and the minimum dilution at the water surface were generally in agreement with the field measurement data, and the vertical concentration distribution of the discharged water and the mixing behavior were also well simulated. When the advection-dispersion process by ambient water flow was analyzed, the TDIZ model in which initial mixing in the near field was considered gave better results than a far-field advection-dispersion model, which considered the discharge boundary conditions in terms of a simple point source.

Published

2007

7. Irrigation with Microbial-Contaminated Water and Risk of Crop Contamination

Author

C. Yeon-Sik Choi, Inhong Song, and Soon-Kuk Kwun

Subjects

Crop, Fecal coliform, Irrigation, Agronomy, biology, Microorganism, food and beverages, Environmental science, Relative humidity, Coliphage, Contamination, biology.organism_classification, Food contaminant

Abstract

The aim of this study was to compare crop contamination between two irrigation methods using microbial-contaminated water. The effect of relative humidity on microbial survival of the three indicator microorganisms was also investigated. Escherichia coli ATCC 25922, Clostridium perfringens ATCC 3624, and coliphage PRD1 were applied to irrigation water to grow cantaloupe, lettuce, and bell pepper. Half of the sixteen plots were subsurface drip irrigated (SDI) and the other half were furrow irrigated (FI). Two relative humidity levels were controlled at 15-65 % and 55-80 % for the dry and humid condition experiments, respectively. Samples of produce, surface soil, and subsurface soil at a depth of 10 cm were collected over a two-week period following the application of the study microorganisms. Overall, greater contamination of both produce and soil occurred in the FI plots. For the SDI plots, preferential water paths and resulting water appearance on the seed beds seemed to be responsible for produce contamination. Relative humidity levels did not appear to affect microbial survival in soil. PRD 1 showed lower inactivation rates than 5. coli in both dry and humid conditions. C. perfringens did not experience significant inactivation over the experimental period, suggesting this microorganism can be an effective indicator of fecal contamination.

Published

2007

8. Modification of WASP5 for Ungauged Watershed Management and Its Application

Author

Jin-Ho Kim, Dong-Suk Shin, and Soon-Kuk Kwun

Subjects

Hydrology, Watershed management, Geography, Watershed, Source data, Simulated data, Field data, Water quality, Surface runoff, Time of concentration

Abstract

This study was carried out to develop a water quality simulation model for the evaluation of an ungauged watershed. For this purpose, the WASP5 model was selected and modified. The model consists of three sub-models, LOAD-M, DYN-M, and EUT-M. LOAD-M, an empirical model, estimates runoff loadings using point and non-point source data of villages. The Geum River Estuary watershed was selected to calibrate and verify the Modified-WASP5. The LOAD-M model was established using field data of water quality and quantity at the gauging stations of the watershed and was applied to the ungauged watersheds, taking the watershed properties into consideration. The result of water quality simulation using Modified-WASP5 shows that the observed average BOD data from Gongju and Ganggyeong were 2.6 mg/L and 2.8 mg/L, and the simulated data were 2.5 mg/L and 2.4 mg/L, respectively. Generally, simulation results were in good agreement with the observed data. This study focused on formulating an integrated model for evaluating ungauged watersheds. Even though simulation results varied slightly due to limited availability of data, the model developed in this study would be a useful tool for the assessment and management of ungauged watersheds.

Published

2007

9. Pollution control via a dredged pool at the inlet of a reservoir

Author

Song-Bae Kim, Byung-Heun Park, and Soon-Kuk Kwun

Subjects

chemistry.chemical_classification, Hydrology, Pollution, geography, Environmental Engineering, geography.geographical_feature_category, media_common.quotation_subject, Chemical oxygen demand, Environmental engineering, Inlet, Dredging, Water balance, Settling, chemistry, Environmental science, Organic matter, Water quality, Agronomy and Crop Science, Water Science and Technology, media_common

Abstract

We investigated the applicability of a dredged pool formed at the inlet of a reservoir for pollution control. To quantify the effect of a dredged pool on the water quality of a reservoir, we monitored the water quality of the Masan Reservoir, located in the city of Asan, Choongnam Province, Korea, before and after dredging. In addition, a completely mixed box model was applied to simulate the water quality of the dredged pool and reservoir. The model included a water balance equation and chemical mass balance equation, into which several interactions among water quality components, such as phytoplankton, total nitrogen (T-N), total phosphorus (T-P), dissolved oxygen, and chemical oxygen demand (COD), were incorporated. The water quality monitoring and modeling results indicated that reservoir water quality was greatly affected by the dredged pool. The loads of T-N and T-P into the reservoir were reduced by the dredged pool, which may have induced the removal of nutrients by settling. However, the dredged pool may have had a negative effect on the reservoir in terms of COD and chlorophyll-a because of the internal production of organic matter and/or algae with water detention. Therefore, a dredged pool may be used for pollution control in a reservoir, as long as it is combined with measures to reduce concentrations of organic matter and/or algae.

Published

2007

10. Agricultural Infrastructure Expansion Plan for North Korea Providing for Unification of the Korean Peninsula - An Economic Feasibility Analysis

Author

Soon-Kuk Kwun, Je-Myung Lee, ChangKeun Park, Kwan-Soo Kim, and Jeong-Jae Lee

Subjects

geography, geography.geographical_feature_category, Unification, business.industry, Natural resource economics, Total cost, Staple food, Plan (drawing), Peninsula, Agriculture, Development economics, Production (economics), business, Productivity

Abstract

We propose an Agricultural Infrastructure Expansion Plan (AIEP) for North Korea following unification from the standpoint of a united Korea`s social stability. We predict the food demand after unification, according to four different development scenarios based on the AIEP. These scenarios include meeting a self-sufficient level in the staple food crop, satisfying long-term food supply and demand for the North Korean people, achieving a level of North Korean food consumption comparable to that of South Korea, and maintaining productivity to stabilize of North Korea`s rural society. We present the results of a `benefit-cost` analysis in meeting the production targets of predicted food demands after unification from a civil engineering perspective. We found that the estimated total costs would range from 15.2 to 43.0 billion dollars depending on the particular AIEP scenario. In our analysis, all of the four scenarios presented above demonstrated a high degree of economic validity. We conclude that the AIEP is a necessary and economically valid project for a united Korea`s future because it would forestall the collapse of North Korea`s rural communities, thereby preventing tremendous economic losses upon unification.

Published

2006

11. Effects of Winter Heating on the Treatment Characteristics and Performance of Absorbent Biofilter System

Author

Soon-Kuk Kwun, Song-Bae Kim, and Gi-Seol Cheon

Subjects

chemistry.chemical_classification, Animal science, chemistry, Wastewater, Air temperature, Biofilter, Environmental engineering, Environmental science, Nitrification, Organic matter, Water quality, Treatment characteristics, Effluent

Abstract

This study was performed to evaluate the need for heating wastewater to enhance treatment efficiency of organic matter (BOD, SS) during cold winter in newly developed Absorbent Biofilter System (ABS) which was established in the Suwon Campus of the Seoul National University. Treatments consisted of non-heating (2000 year) and heating(2001, 2002 year), and sampled data were analyzed during cold winter period as well as post winter period to investigate the influence of heating after winter season. Even the average air temperature showed only difference between two experimental years, the difference in the average effluent temperature during cold winter period between heating and non-heating experiment was approximately . The average effluent concentration of organic matter in non-heating treatment exceeded the Korean standards for water quality of discharged effluent in riparian area (BOD and SS 10 mg/L); however, the standards were met in case of heating treatment during both winter and post winter period. Therefore, the need fur heating wastewater during cold winter season in ABS was justified. On the other hand, there was no improvement of treatment efficiency in T-N and T-p, but we observed the more activated nitrification as increasing the wastewater temperature. Because the average underground temperature was higher than the average air temperature during cold winter period, we recommend that the ABS can be established in the underground rather than on-ground for saving the heating cost.

Published

2005

12. The Evaluation of Pollutant Removal Efficiencies by Sedimentation Basin Types constructed at the Inlets of Irrigation Reservoirs

Author

Sunhwa Choi, Soon-Kuk Kwun, and Jeongryeol Jang

Subjects

Pollutant, Hydrology, Irrigation, geography, geography.geographical_feature_category, Environmental science, Sedimentation, Structural basin, Inlet

Abstract

본 연구의 목적은 농업용 저수지 유입부에 설치된 3가지 유형(준설형, 차수막형, 보조댐형)의 침강지에 대한 수질정화효율 평가와 수질정화효율 면에서 유리한 침강지의 유형과 적정규모를 살펴보는데 있다. 이를 위해서 주요 수질 항목에 대한 정화효율과 침강지 설치전후의 퇴적물의 이화학적특성을 조사하였다. 수질정화효율은 침강지 유형, 수질항목 및 조사시기에 따라 $-87\%$ 에서 $92\%$ 사이의 넓은 변동을 보였다. 농도회귀법(ROC)으로 평가한 설계정화효율은 준설형이 $18\%$ , 차수막형이 $29\%$ , 보조댐형이 $42\%$ 로 나타났다. 보조댐형에서는 퇴적물의 이화학적특성 변화가 있었으나, 다른 두 유형에서는 미미하였다. 정화효율, 배수면적 대 유역면적비(SAR), 체류시간 측면에서 비교한 결과, 보조댐형 침강지가 가장 유리한 것으로 나타났다. 따라서 침강지는 저수지 수체와 완전히 분리되는 구조이면서 SAR가 $0.7{\sim}1.0\%$ 정도인 규모가 적절하다. 1일 주제 : 미래디자인, 기업과 대학의 가치충돌 2일 주제 : 한국의 소리 , 멋, 공간 - 행사일정 : 2004.1.30(금) ~ 2004.1.31(토) - 사전등록 : 2004.1.24(토) - 행사장소 : 전주대학교 - 행사주최 : 한국디자인학회 - 행사주관 : 한국디자인학회, 전주대학교 - 행사후원 : 한국디자인법인단체총연합회, 한국디자인진흥원, 디자인네트, 월간디자인, 광주문화재단 - 참가자 : 한국디자인학회 회원 및 비회원 - 참가비 : 회원 (사전등록자 및 예약자 8만원) 학생회원 ( 【The aim of this study is to evaluate 3 types of sedimentation basins: dredging, shield skirt and auxiliary dam, constructed at inlets of two irrigation reservoir and to estimate the most beneficial type and fitted size, SAR(surface to area ratio), for pollutant removal efficiency(RE). For this, RE of major water quality items and change of physicochemical properties in sediments before and post construction of sedimentation basin(SB) were investigated. RE depended on SB types, water quality items and survey times with wide range from $-87\%$ to $92\%$ . Long term overall removal efficiency by ROC(regression of concentration) method were $18\%$ in dredging, $29\%$ in shield skirt and $42\%$ in auxiliary dam type. There was a change of physicochemical properties in sediments at auxiliary dam type, while a slight change at dredging and shield skirt type. In comparison to RE, SAR and hydraulic retention time at 3 types of SB, auxiliary dam type was the most beneficial one. Thus, it is recommended that SB would be constructed in completely separated structure from water body of a reservoir with SAR ranged from 0.7 to $1.0\%$】

Published

2005

13. Characteristics of Non-point Pollutants Discharge in a Small Agricultural Watershed during Farming Season

Author

Kyung-Do Lee, Won-Il Kim, Goo-Bok Jung, Jong-Sik Lee, Jeong-Taek Lee, Soon-Kuk Kwun, Jong-Su Ryu, and Jin-Ho Kim

Subjects

Wet season, Pollutant, Hydrology, Watershed, business.industry, Agriculture, Dry season, Sewage, Environmental science, General Medicine, Water quality, business, Surface runoff

Abstract

This study was conducted to identify the characteristics of non-point pollutants discharge in a small agricultural watershed during farming season. for this purpose, the Neoungchon watershed in Goesangun was selected as a typical agricultural area. Runoff and water quality data in the stream, the domestic sewage and the precipitation of the watershed were analyzed periodically from June 1 to November 6 in 2004 and pollutant loads were estimated. As a result the mean concentrations of BOD, SS, TN and TP in the stream were 3.0, 76.7, 8.7, 0.16 mg/L in rainy season and 2.4, 10.0, 3.5, 0.11 mg/L in dry season respectively. Daily discharge of non-point pollutant occurred above of 95% in rainy period. Measured pollutant loads in the watershed were of T-N and of T-P, within the range of other research results. Effluent loads based on guideline of total pollutant to stream management of MOE (Ministry of Environment) were less than delivery loads since the guideline could not reflect the agricultural practices, geomorphic and meteorological characteristics in an agricultural watershed.

Published

2005

14. Enhancement of Sewage Treatment Efficiencies by Recirculation in Absorbent Biofilter System

Author

Gi-Seol Cheon, Soon-Kuk Kwun, and Song-Bae Kim

Subjects

business.industry, Phosphorus, media_common.quotation_subject, Environmental engineering, Aerobic treatment system, chemistry.chemical_element, Sewage, Septic tank, chemistry, Wastewater, Biofilter, Environmental science, Sewage treatment, business, Effluent, media_common

Abstract

An Absorbent Biofilter System (ABS) combined with the recirculation process was investigated for the feasible application in additional removing of organics (BOD, SS) as well as nutrients (TN, TP) from small Community wastewater in Korea. Polyurethane biofilter media with high porosity and large surface area were /used for the aerobic system. A part of treated wastewater was recirculated into the anoxic septic tank to promote removal of nutrients. The concentrations of BOD and SS of treated wastewater satisfied the regulations for small on-site wastewater treatment facility (10 mg/L) during the overall experimental period. The effluent concentrations of BOD and SS were decreased with enhancement of removal efficiencies of 95.7 and . The nitrogen and phosphorus removal efficiencies by the recirculation increased to in average during the overall experimental period, respectively. With the improvement, these values were increased as much as additional 42 and compared with those of non-recirculation. The rates of nitrification and denitrification were enhanced showing , respectively. The described process modification is a low cost and effective method of enhancing nitrogen and phosphorus removal, especially on existing systems without changing major design components of a treatment facility.

Published

2005

15. Hydraulic Residence Time in a Prototype Free Water Surface Constructed Wetland

Author

Kyung Do Lee, Seong Bae Kim, Jin Ho Kim, Younghyun Cho, and Soon Kuk Kwun

Subjects

Hydrology, geography, Plug flow, geography.geographical_feature_category, Hydraulic retention time, TRACER, Constructed wetland, Environmental science, Flux, Wetland, General Medicine, Inflow, Water quality

Abstract

A prototype surface flow constructed wetland was built in the upstream area of reclaimed tidal lands to improve the water quality of Lake Sihwa by treating severely polluted stream water. In this study, a tracer test using rhodamine-WT was performed to investigate the flow characteristics and to quantify the observed hydraulic residence time (HRT) for a high-lying cell in the Banwol wetland of the Sihwa constructed wetland. The tracer test indicated that even if flow was mainly observed in the open water area of the Banwol wetland, water flowed continuously in the vegetative area and there was no dead zone. The calculated HRT (51.3 hrs), calculated by dividing the wetland volume by the wetland inflow, exceeded the observed HRT (38.7 hrs), since the short-circuiting of flux resulting from irregular topography and vegetation was not reflected in the calculated HRT. The exit tracer concentration curves were reproduced well by both the plug flow with dispersion and tanks-in-series models, indicating that the performance of the Banwol wetland can be estimated accurately using these models.

Published

2005

16. A Faunal Study in the Shihwa Constructed Wetland

Author

Jae-Han Shim, Soon-Kuk Kwun, Woo-Shin Lee, Kun-Suk Woo, Sang-Chul Lee, Hyun-Jung Choe, and Wee-Haeng Hur

Subjects

geography, geography.geographical_feature_category, Mugil, Ecology, Fauna, Constructed wetland, Freshwater fish, Wetland, Raccoon Dogs, Biology, biology.organism_classification, Odonata, Global biodiversity

Abstract

The Shihwa wetland, a newly developed constructed wetland prototype in Korea with an area of approximately 104 ha, was established to improve the water quality severely polluted inflow streams into Lake Shihwa. Because this wetland could play a role as an ecological park in addition to improving the water quality, an ecological impact of the Shihwa constructed wetland has been a national concern. This paper focused on reporting the survey results for fauna among the entire investigation results for 3 years. A total of 129 terrestrial insect species have been observed from August 2001 to June 2002. Among them, Ischnura asiatica (Brauer) (order Odonata), Scymnus species (order Coleoptera) and Orthopteran species were frequently found in the reed bushes. A total of 77 bird species were recorded in a seasonal count, the maximum number of species was 34 in winter and the maximum number of individuals was 4,599 in summer. For the freshwater fish, only 4 species were found in 2000, however in 2001 and 2002, 12 species and 459 individuals were collected at four survey points. Among these 12 species, the dominant species were Mugil cephalus(36%), followed by Carassius auratus (25%) and Rhinogobius brunneus (22%). Meanwhile,12 individuals of Oryzias latipes were observed nearby, mostly downstream of the wetland. For the Herpetofauna at four survey areas, 3 species of amphibians and 3 species of reptiles were recorded. Because of remaining salinity in the soil of the Shiwha constructed wetland, Herpetofauna inflow to the wetland was scanty and mainly inhabited the upstream area. A total of 8 mammal species were recorded. Small-sized species were the striped field mouse, the Ussurian harvest-mouse, the Manchurian reed vole and the brown rat. Middle- and large-sized species were Korean water-deer, Korean raccoon dogs, Korean yellow weasels and feral cats.

Published

2004

17. Dynamics of the Community of Phytoplankton and Periphytic Algae on Reed in the Shihwa Constructed Wetland

Author

Yong-Jae Kim and Soon-Kuk Kwun

Subjects

Biomass (ecology), geography, geography.geographical_feature_category, biology, Nitzschia, Ecology, Wetland, General Medicine, biology.organism_classification, Stigeoclonium, Phragmites, Algae, Phytoplankton, Botany, Constructed wetland

Abstract

The Shihwa constructed wetland was established for the treatment of severely polluted water from Banwoul, Donghwa and Samhwa streams. This study was focused on investigating dynamics of phytoplankton communities in open waters and periphytic algae on reed (Phragmites communis) planting area at 5 stations from October 2001 to July 2002. The concentration of T-N and T-P of inlet stations from the streams were decreased by flowed through the wetland. However, the TN/TP ratios at all stations were shown as a little over 16 indicating that the T-P will play some role as a limitation factor. Phytoplankton communities were identified as a total 413 taxa which were composed of 375 species, 21 varieties, 2 forma and 15 unidentified species. Standing crops of phytoplankton communities and chlorophyll-a concentrations ranged from and respectively, and showed the decreasing tendency after flowing through the wetland at almost all stations. Dominant species were 14 taxa at all stations which were Euglena oblonga and Synura spinosa etc. Periphytic algae on the reed were a total 329 taxa which were composed of 295 species, 13 varieties, 3 forma and 17 unidentified species. The species numbers were recorded in order of Chlorophyceae-Bascillariophyceae-Cyanophyceae-Euglenophyceae-Chrysophyceae. The relative abundance (%) was showed a seasonal variation from Cyanophyceae to Bascillariophyceae and to Chlorophyceae. Chlorophyll-a concentrations, ie. the biomass of periphytic algae were ranged from . Dominant species were 16 taxa which were Lyngbya angusta of Cyanophyceae in the early investigation, and were changed to Stigeoclonium lubricum of Chlorophyceae, and Nitzschia plea of Bacillariophyceae etc. in the late. Species number, standing crops and chlorophyll-a concentrations of phytoplankton and perphytic algae were shown higher values at the inlet stations than the stations after flowing through the wetland.

Published

2004

18. Sewage Treatment Characteristics and Efficiencies of Absorbent Biofilter Systems

Author

Soon-Kuk Kwun, Song-Bae Kim, and Gi-Seol Cheon

Subjects

geography, Nutrient, geography.geographical_feature_category, Biofilter, Environmental engineering, Environmental science, Sewage treatment, Treatment characteristics, Effluent, Alternative treatment, Riparian zone

Abstract

In this study, on-site sewage treatment tests were conducted using the Absorbent Biofilter System (ABS) under different hydraulic loading rates to examine its treatment characteristics and efficiencies and to determine its feasibility as a small on-site sewage treatment system in a rural area. Results showed that the removal rates of BOD and SS were satisfactory at hydraulic loading rates of 100~150 cm/day, meeting the Korean effluent water quality standards for the riparian zone (10 mg/L). In the case of nutrients (N, P), however, the system did not perform well, necessitating further improvement for nutrient removal. A comparative analysis indicated that as a small on-site sewage treatment system, the ABS would be more suitable than other treatment systems in terms of performance stability, maintenance requirement, and cost-effectiveness and could be applied as an alternative treatment system in Korean rural areas.

Published

2004

19. Evaluation of NPS Pollutant Loads from Clayey Loam Fields

Author

Soon-Kuk Kwun, Gi-Seok Kwon, and Joong-Dae Choi

Subjects

Crop, Pollutant, Hydrology, Animal science, chemistry, Loam, Phosphorus, Environmental science, Growing season, chemistry.chemical_element, Water quality, Weed, Surface runoff

Abstract

NPS pollutant loads from sandy clayey and clayey loam runoff plots were measured. Runoff plots were 210 m in size and 8~10% in slope and paddy area was 4,620 . Soybean, corn, tobacco and control (natural weed) were cultured. Precipitation during the growing season of June to October, 2002 was 869.5 mm. Runoff and water quality were measured more than 10 times during the measurements depending on the growing stage. Pollutants loads were estimated by using respective concentration and runoff volume. Runoff occurred when daily rainfall exceeded about 30 mm. The largest runoff was observed from the paddy but pollutant loads were larger from upland crops than those from paddy. SS loads from paddy and upland were 1.4 ton/ha/yr and 3.1~4.3 ton/ha/yr, respectively. COD loads 30 kg/ha/yr and 66~90 kg/ha/yr, T-N loads 13 kg/ha/yr and 14~23 kg/ha/yr, T-P loads 1 kg/ha/yr와 4 kg/ha/yr, nitrate nitrogen loads 1 kg/ha/yr and 4~8 kg/ha/yr, and phosphate phosphorus loads 0 kg/ha/yr and 4~6 kg/ha/yr, respectively. It was concluded that NPS pollutant loads from upland crop culture have greater impact on the quality of the receiving water body than those from paddy culture.

Published

2004

20. Water quality and limnology of Korean reservoirs

Author

Soon-Jin Hwang, Soon-Kuk Kwun, and Chun-Gyeong Yoon

Subjects

Ecosystem health, Environmental Engineering, business.industry, Limnology, Environmental engineering, Lake ecosystem, Agriculture, Farm water, Ecosystem, Water quality, Water resource management, business, Eutrophication, Agronomy and Crop Science, Water Science and Technology

Abstract

Reservoirs are the predominant type of lentic ecosystem in Korea, and they account for a considerable proportion (~59%) of the agricultural water uses. There are 18,797 reservoirs in Korea; most (~90%) are small (storage capacity

Published

2003

21. Groundwater and Soil Environment of Plastic Film House Fields around Central Part of Korea

Author

Goo-Bok Jung, Yeun-Tae Jung, Sun-Gang Yun, Soon-Kuk Kwun, Jin-Ho Kim, Won-Il Kim, and Jong-Sik Lee

Subjects

chemistry.chemical_classification, Hydrology, Soil texture, Environmental engineering, Plastic film, General Medicine, chemistry.chemical_compound, chemistry, Loam, Soil water, Environmental science, Organic matter, Water quality, Sulfate, Groundwater

Abstract

The objective of this study was to know the qualities of soil and shallow groundwater in plastic film house fields around Central Part of Korea. The study was conducted at 11 sites in Suweon, Hwasung, Pyungtaek, Yongin and Chuncheon through May to August in 1999. Soil textures of plastic films house were mainly sandy loam or loam. Electric conductivity and organic matter content of surface soils mostly exceeded the critical levels for crop production. Average concentration of in the sha]low groundwater was 19.1 mg/L, and it reached almost the limiting level of agricultural groundwater quality (20 mg/L). Moreover about 36% of survey sites exceeded the limiting level of agricultural groundwater quality. Sulfate concentrations also at some sites exceeded agricultural groundwater quality limit level (50 mg/L). Nitrate-N, one of the most important factors in the groundwater quality, had positive correlations with other ions in foundwater.

Published

2002

22. FEASIBILITY STUDY OF A CONSTRUCTED WETLAND FOR SEWAGE TREATMENT IN A KOREAN RURAL COMMUNITY

Author

Jong H. Ham, Soon Kuk Kwun, and Chun G. Yoon

Subjects

Biochemical oxygen demand, Environmental Engineering, Nitrogen, Sewage, Phosphorus metabolism, Water Movements, Biomass, Effluent, Ecosystem, Total suspended solids, business.industry, Water Pollution, Environmental engineering, food and beverages, Agriculture, Phosphorus, General Medicine, Plants, Oxygen, Constructed wetland, Feasibility Studies, Environmental science, Sewage treatment, Water quality, business

Abstract

A pilot study was performed to examine the feasibility of using a constructed wetland system for treatment of sewage in a Korean rural community. The treatment system was a subsurface flow wetland with a loading rate and hydraulic residence time of 6.3 cm/day and 3.5 days, respectively. The wetland system was highly effective in treating the sewage; median removal efficiencies of BOD5 (biological oxygen demand) and TSS (total suspended solids) were about 70.0%, with median effluent concentrations of 24 and 13 mg/L, respectively, for these constituents. However, BOD5 and TSS did often exceed the effluent water quality standards of 20 mg/L. Removal of TN (total nitrogen) and TP (total phosphorus) was relatively less effective and median effluent concentrations were approximately 81 and 8 mg/L, respectively. The treatment system did not experience any clogging or accumulation of organic and inorganic solids during the study, and during winter a substantial amount of removal of BOD5 and TSS continued to occur. Overall, the constructed wetland was judged to be an effective sewage treatment system, but not sufficient by itself to attain regional water quality standards. Therefore, treatment of rural sewage by a wetland system should be followed by another process such as use of the effluent for irrigation of agricultural crops (e.g., rice).

Published

2001

23. Effects of treated sewage irrigation on paddy rice culture and its soil

Author

Jong H. Ham, Chun G. Yoon, and Soon Kuk Kwun

Subjects

Soil characteristics, Irrigation, Agronomy, business.industry, High nitrogen, Soil Science, Sewage, Environmental science, Sewage disposal, business, Agronomy and Crop Science, Dilution

Abstract

A pilot study was performed in an experimental field at Konkuk University in Seoul, Korea, to examine the effect of treated sewage irrigation on paddy rice culture and its soil characteristics. Treated sewage irrigation did not adversely affect the growth or yield of rice; instead it resulted in about 10% (with dilution) or 50% (without dilution) greater yield than in controls. The strength of treated sewage was not a limiting factor and no lodging was observed in the rice culture even with a relatively high nitrogen concentration (up to 160 mg l−1). The paddy soil also was not generally affected, although there was an indication of salt accumulation in the field irrigated with the highest strength of treated sewage. Overall, the treated sewage irrigation to paddy rice culture was thought to be an acceptable process for final sewage disposal as long as it is adequately treated and used as a supplemental source of irrigation. Copyright © 2001 John Wiley & Sons, Ltd.

Published

2001

24. Performance of a small on‐site wastewater treatment system using absorbent biofilter for korean rural community

Author

Soon Kuk Kwun, Chun G. Yoon, and Batu Kimn

Subjects

Environmental Engineering, media_common.quotation_subject, Environmental engineering, Septic tank, General Medicine, law.invention, Nutrient, Wastewater, law, Biofilter, Ventilation (architecture), Environmental science, Sewage treatment, Aeration, Effluent, media_common

Abstract

The feasibility of an absorbent biofilter system was examined for rural wastewater treatment in Korea. Hydraulic loading rates varied from 50 to 250 cm/day. Effluent of the septic tank was fed into the absorbent biofilter, and small ventilation fan was provided to supply air at the rate of 250 L/min to aerate the biofilter. The biofilter system demonstrated high removal rates for BOD5 and TSS at the loading rate of 150 cm/day, generally meeting the Korean effluent water quality standard of 20 mg/L applicable to both. The nutrient removal was less satisfactory than the results of BOD5 and TSS, but it was within the expected range of biological treatment processes. Considering the abnormally high influent concentration of nutrients during the experiment, better performance results could have been obtained if ordinary domestic wastewater was used. The treatment efficiency decreased during low temperature period in winter, thus enhancement of the system applicable to all seasonal temperature ranges i...

Published

2000

25. Rainfall observations in Korea by the world's first rain gauge

Author

Soon-Kuk Kwun

Subjects

Environmental Engineering, Hydrogeology, Meteorology, Rain gauge, Climatology, Environmental science, Agronomy and Crop Science, Water Science and Technology

Published

2006

26. Raman spectroscopy of quantum paraelectric SrTiO3 fine particles

Author

C.J. Kim, Jun-Ran Kim, T.K. Song, Jiheon Kim, and Soon-Kuk Kwun

Subjects

Range (particle radiation), Materials science, Dielectric, Soft modes, Condensed Matter Physics, Molecular physics, Electronic, Optical and Magnetic Materials, Condensed Matter::Materials Science, symbols.namesake, Nuclear magnetic resonance, symbols, Particle, Electrical and Electronic Engineering, Raman spectroscopy, Quantum, Raman scattering

Abstract

Size effects of quantum paraelectric SrTiO 3 particles were studied by Raman scattering. The particles were synthesized by a sol-gel method. The particle sizes were controlled by the firing temperatures and determined by the X-ray analysis to range from 12 to 44 nm in diameter. The soft mode frequencies of the smaller particles were higher than those of the larger particles in the low temperature. The soft mode behavior was conforming with dielectric results of the Lyddane-Sachs-Teller relation.

Published

1996

27. Estimation of methane emission from rice cultivation in Korea

Author

Soon-Kuk Kwun, Kicheol Eom, and Yong Kwang Shin

Subjects

Environmental Engineering, Nitrogen, Atmospheric carbon cycle, Methane, chemistry.chemical_compound, Soil, Water Supply, Organic matter, Cropping system, chemistry.chemical_classification, Air Pollutants, Korea, business.industry, Environmental engineering, Temperature, Agriculture, Oryza, General Medicine, Soil type, Bacteria, Aerobic, chemistry, Greenhouse gas, Paddy field, Environmental science, Seasons, business, Environmental Monitoring

Abstract

This study focused on estimating a methane (CH4) inventory and developing mitigation options in South Korea, and was performed jointly in an integrated national research program on CH4 from rice fields conducted by three National Agricultural Research Institutes, under the Rural Development Administration during 1993-1997. Methane emissions were measured by a closed chamber method, in rice plots at three locations (Suwon, Iksan, and Milyang) with the single rice cropping system. All experimental data from 5 years of study were summarized and used for calculating nation-wide CH4 emissions. Temperature, soil type, cultural practices, water management, organic matter management, and cultivar selection significantly affected the fluctuations of CH4 emissions. The two most promising mitigation options for reducing emissions were altered water management, in particular mid-season aeration by short-term drainage, and improved organic matter management, by promotion of aerobic degradation through composing or soil incorporation. Annual total CH4 emission in Korea changed from 410Gg in 1990 to 339Gg in 2000, due mainly to a decrease in the cultivated area of paddy rice. If we convert annual CH4 emission to Global Warming Potential as CO2 equivalent, it amounts to 7.1 M CO2 t yr(-1) of greenhouse gas emitted to the atmosphere in 2000 from the rice fields in Korea, which is just 5.3% of the annual CO2 emission from the industry and energy sector. More importantly, the balance between CO2 uptake by photosynthesis and CO2 emission is positive (a net sink), so that rice culture actually has net benefits for the global atmospheric carbon issue. Further reductions in emission amounts, by following recommendations in this article, could make these benefits even greater.

Published

2003

28. Enhanced nutrient removals using conventional anoxic biomechanic aerobic system for on-site wastewater treatment

Author

Chulsung Kim and Soon-Kuk Kwun

Subjects

Biochemical oxygen demand, Environmental Engineering, Denitrification, Chemistry, Nitrogen, Chemical oxygen demand, Environmental engineering, Aerobic treatment system, Membranes, Artificial, Phosphorus, General Medicine, Anoxic waters, Waste Disposal, Fluid, Water Purification, Bacteria, Aerobic, Oxygen, Bioreactors, Wastewater, Biofilter, Sewage treatment, Water Pollutants, Adsorption, Organic Chemicals, Filtration

Abstract

A bench-scale absorbent biofilter system combined with a conventional anoxic process was investigated in regard to its feasibility for removing organic as well as nutrient materials from small community wastewater in Korea. A polyurethane biofilter medium with high porosity and a large surface area were used for the aerobic system. Part of treated wastewater was recirculated into the anoxic process to promote removal rate of nutrients. At three different ratios of recirculation, the BOD and SS of treated wastewater satisfied standard regulations for a small wastewater treatment facility (10 mg/l) during the overall experimental period. The system reduced the concentration of BOD from approximately 130 mg/l to 6.1 (removal rate of 95.2%) and 1.7 mg/l (removal rate of 98.7%). These results correspond to recirculation ratios of 1 and 2, respectively. A further increase of the recirculation ratio did not significantly improve the removal rate or further reduce effluent BOD concentration. Nutrients such as nitrogen and phosphorus also were removed effectively, with maximum removal rates of 65.3 and 84.1% for nitrogen and phosphorus, respectively. The recirculation ratio for optimum nitrogen removal was 2, while the removal of phosphorus continued to increase across the entire range of recirculation ratios tested. With a recirculation ratio of 2, the total phosphorous removal rate increased dramatically as initial ammonium concentration increased, while nitrogen removal was not affected in this manner. During the experimental period of 2 years, the system was quite stable, requiring the minimum amount of maintenance and a relatively low cost compared to other utility expenses. Based on the experimental data, the proposed anoxic-biofilter aerobic recirculation system might be used as a new alternative technology for wastewater treatment in small communities in Korea.

Published

2002

29. Feasibility study of treated sewage irrigation on paddy rice culture

Author

Soon-Kuk Kwun, Chun-Gyeong Yoon, and Ill-Min Chung

Subjects

Irrigation, Environmental Engineering, Sewage, business.industry, media_common.quotation_subject, Water Pollution, Environmental engineering, Septic tank, Agriculture, General Medicine, Plants, Refuse Disposal, Wastewater, Constructed wetland, Water Movements, Environmental science, Paddy field, Feasibility Studies, Water quality, business, Fertilizers, Effluent, media_common

Abstract

A feasibility study was performed to examine the agronomic application of the treated sewage on paddy rice culture through field experiment. The domestic sewage was treated using a constructed wetland system, a subsurface flow type consisting of sand and macrophyte. The effluent of the wetland system was diluted to maintain the total nitrogen concentration below 25 mg/L and was used as irrigation water. Addition of the treated sewage to the irrigation water showed no adverse effect on the paddy rice culture; in fact some enhancement was noticed in both growth and yield. Irrigation with the treated sewage after the concentration was adjusted accompanied by conventional fertilization showed a better result, with the yield exceeding that of the control where clean water was used, thus suggesting that reuse of the treated sewage as supplemental irrigation water could be a feasible and practical alternative. For a full-scale application, however, further study is recommended on the specific guideline for controlling the major water quality components in the treated sewage.

Published

2001

30. Pollution control via a dredged pool at the inlet of a reservoir.

Author

Soon-Kuk Kwun, Byung-Heun Park, and Song-Bae Kim

Abstract

Abstract??We investigated the applicability of a dredged pool formed at the inlet of a reservoir for pollution control. To quantify the effect of a dredged pool on the water quality of a reservoir, we monitored the water quality of the Masan Reservoir, located in the city of Asan, Choongnam Province, Korea, before and after dredging. In addition, a completely mixed box model was applied to simulate the water quality of the dredged pool and reservoir. The model included a water balance equation and chemical mass balance equation, into which several interactions among water quality components, such as phytoplankton, total nitrogen (T-N), total phosphorus (T-P), dissolved oxygen, and chemical oxygen demand (COD), were incorporated. The water quality monitoring and modeling results indicated that reservoir water quality was greatly affected by the dredged pool. The loads of T-N and T-P into the reservoir were reduced by the dredged pool, which may have induced the removal of nutrients by settling. However, the dredged pool may have had a negative effect on the reservoir in terms of COD and chlorophyll-abecause of the internal production of organic matter and/or algae with water detention. Therefore, a dredged pool may be used for pollution control in a reservoir, as long as it is combined with measures to reduce concentrations of organic matter and/or algae. [ABSTRACT FROM AUTHOR]

Published

2007