본 연구에서는 우리나라의 주요하천인 한강, 금강, 영산강, 섬진강 그리고 낙동강의 하구에서 해수중 화학적산소요구량(COD)의 농도를 결정하는 주요 요인과 수질인자에 대해 고찰하였다. 주성분분석으로 얻어진 해수중 COD 농도를 결정하는 주요요인은 염분과 클로로필-a를 중심으로 한 외래성 기원과 자생공급으로 나타났으며, 그 외 해저 퇴적층의 유기물도 영향을 미치는 것으로 나타났다. 하구해역의 COD 농도를 결정하는 수질인자들의 기여도는 회귀식 기울기를 통해 평가하였다. 조사시기별로는 전체적으로 염분의 영향을 많이 받는 것으로 나타났으며, 4월과 8월에는 클로로필-a의 영향도 함께 받는 것으로 나타났다. 하구별로는 낙동강에서는 클로로필-a, 한강과 영산강에서는 염분, 금강에서는 염분과 함께 클로로필-a의 기여도가 각각 큰 것으로 나타났으며, 섬진강에서는 염분과 클로로필-a 모두 낮은 기여를 나타내었다.
Determining factors and temporal & spatial characteristics of COD(Chemical Oxygen Demand) at the sea surface in Jinhae bay have been examined by using seasonal data, taken at twenty six stations cver the whole bay during 1989∼1994 by NFRDA. The data have been analyzed in terms of long term means, anomalously large values.
Jinhae bay is divided into three regions based on the time mean : mouth of Jinhae bay, inner sea of Masan bay, western sea of Jinhae bay called region 1,2 and 3, respectively.
The horizontal distribution of the long term mean of COD at each station is similar to those of nitrogen and phosphorus.
Characteristics of whole mean variation in the year shows high range of variation in region 2. It was appear to decreases every year in whole trend. Factors determining seasonal variation in whole COD mean are relative to salinity and nutrient, affected by precipitation in summer.
Spatial variation shows high range of fluctuation in region 2 compare to other region. Factors determining of spatial variation of COD was appear to nutrient, affected by pollutant load of land area and bottom sediment.
The long term mean of COD at each station is closely related with thats of nutrients. The coorelation coefficient between COD and nitrogen, phosphate phosphorus was found to be high as 0.75, 0.78, respectively.
Anomalously large COD was observed 14 times at 6 stations. These stations are located in inner sea of Masan bay(Region 2) and Songjeong bay(Region 1). The seasonal frequency of the observed anomalous COD is large in April, and other seasons are much the same.
A simple on-line measurement system consisting of a conventional peristaltic pump, a HPLC-type heater, and a flow-through spectrophotometer is introduced for the determination of chemical oxygen demand(COD). The system was configured such that the reaction mixture in the highly concentrated sulfuric acid medium flowing through the PTFE reaction tubing was heated at 150℃ and the absorbance of dichromate was continuously monitored at 445 nm. The same oxidation principle as in the standard procedure was employed except the use of CoSO_4 as a new effective catalyst. To test the system, potassium hydrogen phthalate was selected as a COD standard material. With suitably optimized reaction condition, the applicable concentration range depends on the initial concentration of potassium dichromate in the oxidizing reagent. With 2.0×10-3 M and 5.0×10-4 M dichromate, the linear dynamic range was observed up to 400 ppm and 100 ppm, respectively. The standards in the linear ranges were shown to be completely oxidized, which was confirmed with sodium oxalate or Mohr`s salt. In all cases, the typical reproducibility for between-runs was 2% or less. The proposed measurement system provides the valuable information for the further development of automated analysis system based on the present standard procedure.
The COD values and chloride ion concentrations of the Taewha river flowing through Ulsan area were determined along the main stream and the relationships between CODs and chloride ion concentrations were described. The results showed that the middle-upper stream and downstream of the Taewha river were polluted deeply with municipal sewage and self-purification occured in the middle-downstream of the river. When domestic sewage is a main source of pollutants, and is especially the only source of chloride in the stream water, the ratio of COD/[Cl^-] will be utilizable as a measure of self-purification of the stream.