Browse > Article
http://dx.doi.org/10.17663/JWR.2014.16.1.001

Analysis of Water Quality improvement of Upper Stream for the Chung-ju Dam according to Reducing Pollution Using QUAL2E Model  

Han, Chang-Wha (Department of Civil Engineering, Chonnam National University)
Park, Jong-Seok (Department of Civil Engineering, Chonnam National University)
Shin, Jun-Shik (Department of Civil Engineering, Chonnam National University)
Lee, Jae-Joo (Department of Civil Engineering, Chonnam National University)
Hwang, Ui-Gyu (Department of Civil Engineering, Chonnam National University)
Rhee, Kyoung-Hoon (Department of Civil Engineering, Chonnam National University)
Publication Information
Journal of Wetlands Research / v.16, no.1, 2014 , pp. 1-10 More about this Journal
Abstract
The research grasps water quality contamination source by investigating the data that are superordinate laws and the related plans implemented for establishing water quality improvement measures of upper stream for Chung-Ju Dam, present conditions of the hydraulic and hydrology, the present conditions and plans of environment basic facilities, and present conditions of main contamination source's occurrence load and discharge load, etc. The research used the QUAL2E simulation which is being widely applied to simulation of river water quality because the QUAL2E has high credibility among water quality simulations known throughout the country. On basis of this research, regulations and politic alternatives are required in order to water quality improvement upper stream for the Chung-ju dam, especially establishing processing facilities in the region where loading amount is concentrated should be considered with the additional research regarding cost-efficient facility of pollution source.
Keywords
Environment facility; Pollutant load; Pollution source; QUAL2E model; Water quality simulation;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Chapra, SC (1997). Surface Water-Quality Modeling. New York : McGraw-Hill, p. 174.
2 Tolman, RA (1992). Modified QUAL2E modeling of a stream acutely impacted by photosynthesis and respiration. Water resources planning and management: saving a threatened resource. In Search of Solutions, Proceedings of the water resources sessions at water forum. ASCE, New York, USA, pp. 194-199.
3 Venter, SN, Steynberg, MC, Wet, CME de, Hohls, D, Plessis, G and Kfir, R (1997). A situational analysis of the microbial water quality in a peri-urban catchment in South Africa. Water Science and Technology, 35, pp. 119-124.
4 Ning, SK, Chang, NB, Chen, HW and Hsu, HY (2001). Assessing pollution prevention program by QUAL2E simulation analysis for the Kao-Ping river basin, Taiwan, Environmental Management, 61, pp. 61-76.
5 Park, JS, Baek, KJ, Lim, DJ, Lee, DJ, Jeong, SJ and Rhee, KH (2011). Analysis of water pollution sources in Yeongsan river basin on streams using GIS. Korean society of civil engineers Busan.Ulsan. Gyeongnam Branch, pp. 122-125. [Korean Literature]
6 DeGasperi, CL and Khangaonkar, T (1996). A steadystate model of the Willamette river: implications for flow control of dissolved oxygen and phytoplankton biomass. In river quality dynamics and restoration (Laenena A. and Dunnette D. A., eds), pp. 163-171.
7 Gang, YT, Hyeon, GS and Yang, HC (1996). Water quality modeling and management measures for the Nakdong river, J. of Water Treatment, 4(3), pp. 3-15. [Korean Literature]
8 Gang, YT and Yang, HC (1996). Predicting on water quality and water treatment measures for the Nakdong river, J. of Water Treatment, 4(4). pp. 11-26. [Korean Literature]
9 Gang, YT and Hyeon, GS (1997). Modeling of water quality improvement by mass loading regulation in the Nakdong river basin, J. of Water Treatment, 5(1), pp. 3-10. [Korean Literature]
10 Kim, SH (2009). Application of QUAL2E model for water quality simulation of Hoengseong lake. J. of Korean Society on Water Quality, 25(5), pp. 651- 660. [Korean Literature]
11 Kim, JY, Hyeon, GS and Choi JW (2009). Investigation of effects of environmental characteristics of midregion unit consisting of Geum river, J. of Water Treatment, 17(2), pp. 117-124. [Korean Literature]
12 Lee. SJ, Hyeon, GS and Choi, JW (2006). Investigation on water and wastewater treatment techniques according to water environmental change in Nakdong river basin, J. of Water Treatment, 14(4), pp. 41-49. [Korean Literature]
13 McAvoy, DC, Asscheleyn, P, Peng, C, Morrall, SW, Casilla, AB, Lim, MU and Gregorio, EG (2003). Risk assessment approach for untreated wastewater using the QUAL2E water quality model. Chemosphere, 52, pp. 55-66.   DOI   ScienceOn