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Membrane Water Treatment Volume 10, Number 1, January 2019 , pages 099-104 DOI: https://doi.org/10.12989/mwt.2019.10.1.099 |
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Installation and operation of automatic nonpoint pollutant source measurement system for cost-effective monitoring |
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Jechan Jeon, Hyeseon Choi, Dongseok Shin and Lee-hyung Kim
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| Abstract | ||
| In Korea, nonpoint pollutants have a significant effect on rivers\' water quality, and they are discharged in very different ways depending on rainfall events. Therefore, preparing an optimal countermeasure against nonpoint pollutants requires much monitoring. The present study was conducted to help prepare a method for installing an automatic nonpoint pollutant measurement system for the cost-effective monitoring of the effect of nonpoint pollutants on rivers. In the present study, monitoring was performed at six sites of a river passing through an urban area with a basin area of 454.3 km2. The results showed that monitoring could be performed for a relatively long time interval in the upstream and downstream regions, which are mainly comprised of forests, regardless of the rainfall amount. On the contrary, in the urban region, the monitoring had to be performed at a relatively short time interval each time when the rainfall intensity changed. This was because the flow rate was significantly dependent on the rainfall\'s intensity. The appropriate sites for installing an automatic measurement system were found to be a site before entering the urban region, a site after passing through the urban region, and the end of a river where the effects of nonpoint pollutant sources can be well-decided. The analysis also showed that the monitoring time should be longer for the rainfall events of a higher rainfall class and for the sites closer to the river end. This is because the rainfall runoff has a longer effect on the river. However, the effect of nonpoint pollutant sources was not significantly different between the upstream and the downstream in the cases of rainfall events over 100 mm. | ||
| Key Words | ||
| automatic measurement system; cost-effective monitoring; nonpoint pollutant source; peak discharge | ||
| Address | ||
| Jechan Jeon, Dongseok Shin: Water Environment Research Department, National Institute of Environmental Research, 42 Hwankyungro, Seogu, Incheon Metropolitan City, 22689, South Korea Hyeseon Choi and Lee-hyung Kim: Department of Civil & Environmental Engineering, Kongju National University, 275 Budaedong, Seobukgu, Cheonan, Chungnamdo, 331-717, South Korea | ||
