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남우경 ( Woo-kyong Nam ),최일우 ( Il-woo Choi ),김요용 ( Yo-yong Kim ),임한수 ( Han-soo Lim ),김문정 ( Moon-jeong Kim ),임채국 ( Chae-kook Lim ),김수현 ( Soo-hyun Kim ),김태화 ( Tae-hwa Kim ) 한국환경분석학회 2017 환경분석과 독성보건 Vol.20 No.3
Analysis of the water quality characteristics of the Bokha stream showed that it had much higher biological oxygen demand (BOD), ammonia nitrogen (NH<sub>3</sub>-N) and total nitrogen (T-N) levels than other streams, and was influenced considerably by influxes from midstream and downstream. In the case of BOD, the nitrogenous oxygen demand (NOD) ratio by NH3-N is higher than that by organic material, and therefore, controlling the NH3-N concentration will improve the stream water quality. Pollution loads from the Jukdang stream and the Icheon sewage treatment plant account for 71% and 74% of BOD and TN, respectively. Considering that more than 90% of the flow from the Jukdang stream is discharge from an upstream large-scale semiconductor wastewater treatment facility, the quality of the effluent discharged by it and that from Icheon sewage treatment plant are clearly important factors affecting the quality of the stream water. Although the effluent from the two facilities satisfies quality standards for discharge water, it has a great influence on the Bokha stream. Therefore, the standard for discharge water when the flow level is high should be reviewed, considering the characteristics of the area and the environmental capacity of the area.
반월ㆍ시화산업단지의 화학공장을 대상으로 한 악취물질 배출특성에 관한 연구
조덕희,송일석,김인구,김웅수,김종보,김태현,황선민,남우경 한국냄새환경학회 2006 실내환경 및 냄새 학회지 Vol.5 No.4
We investigated dilution ratio values of the threshold limit (DRVTL) and 12 odorous compounds from a number of emission points (stack and process) and boundary areas of 10 chemical industries in the Ban-Woll and Shi-Wha Industrial Complex in Gyeonggi Province. The results of our study suggest that differences in odor emission concentrations are caused by such as factors as : suitability and operational conditions of prevention equipment, suitability hood of process and exhaust ventilation system, differences of raw materials of chemical industry. It was found that trimethylamine and hydrogen sulfide recorded the highest contribution from two types of emission points (stack and process), respectively. Show some actual concentration values here, hydrogen sulfide recorded its maximum values from leather industry, while trimethylamine for hexamine production industry. On the other hand, the results of dimethyl sulfide, dimethyl disulfide and methyl mercaptan were not useful, as their concentrations were not significantly high enough to judge from such respect. In the view-point of dilution ratio values of the threshold limit, the average emission ratio of stack and process from 10 chemical industries was 57, 43%, respectively. Therefore, it is important that the odor emission value from process and stack have to minimize and regulate for management of industrial odor.
서수정,최필권,남우경,황선민,이진영,정선희,박서경 한국환경분석학회 2023 환경분석과 독성보건 Vol.26 No.2
This study aimed to evaluate the discharge characteristics of nonylphenol (NP) and octylphenol (OP) in the effluent of wastewater treatment facilities in the southern Gyeonggi-do. The detection rates of NP and OP were found to be 39.3% and 43.1%, respectively, with median values ranging from 1 to 3 μg/L across all industries. The industries that showed a detection rate of 50% or more were car wash, chemical experiment, fabric leather, paper wood, and plating facilities, with rates ranging from 50% to 75%, while other industries had detection rates of 21.7% to 36.8%. In terms of facility size, small-size establishments such as Type 4 and Type 5 showed higher detection rates in the "Na" region where somewhat relaxed standards are applied on a regional basis. This is because the proportion of Type 4 and Type 5 industries, including various concentration distributions of chemical experiments, research facilities, car washes, petrochemical, and plating industries, is higher than 77.7% overall and concentrated at a rate of 55.6% or higher in the “Na” region. Furthermore, the correlation coefficient (R) between NP and OP exhibited moderate association with values of 0.45 and 0.60 for car washes and plating industries, respectively. Chemical experiments, paper and wood, electrical and electronic, and medicine and hospital facilities showed strong association with correlation coefficients of 0.83, 0.82, 0.82, and 0.79, respectively. The findings in this study can be expected to serve as fundamental data for NP and OP in the establishment of water quality pollutants designation and discharge standards (draft) currently being pursued.