JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Development of Nonpoint Sources Runoff Load Estimation Model Equations for the Vineyard Area
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Development of Nonpoint Sources Runoff Load Estimation Model Equations for the Vineyard Area
Yoon, Young-Sam; Kwon, Hun-Gak; Yi, Youn-Jung; Yu, Jay-Jung; Lee, Jae-Kwan;
  PDF(new window)
 Abstract
Agriculture nonpoint pollution source is a significant contributor to water quality degradation. To establish effective water quality control policy, environpolitics establishment person must be able to estimate nonpoint source loads to lakes and streams. To meet this need for orchard area, we investigated a real rainfall runoff phenomena about it. We developed nonpoint source runoff estimation models for vineyard area that has lots of fertilizer, compost specially between agricultural areas. Data used in nonpoint source estimation model gained from real measuring runoff loads and it surveyed for two years(2008-2009 year) about vineyard. Nonpoint source runoff loads estimation models were composed of using independent variables(rainfall, storm duration time(SDT), antecedent dry weather period(ADWP), total runoff depth(TRD), average storm intensity(ASI), average runoff intensity(ARI)). Rainfall, total runoff depth and average runoff intensity among six independent variables were specially high related to nonpoint source runoff loads such as BOD, COD, TN, TP, TOC and SS. The best regression model to predict nonpoint source runoff load was Model 6 and regression factor of all water quality items except for was .
 Keywords
Nonpoint source;Storm runoff;Pollution load estimation model;
 Language
Korean
 Cited by
1.
도로 유형별 비점오염원 유출특성 분석,윤영삼;권헌각;이윤정;유재정;이춘식;이재관;

Journal of Environmental Science International, 2010. vol.19. 11, pp.1375-1384 crossref(new window)
2.
포도재배지의 비점오염물질 유출특성,이윤정;이재운;권헌각;윤영삼;이재관;

Journal of Environmental Science International, 2011. vol.20. 10, pp.1285-1295 crossref(new window)
3.
강우시 포도밭에 대한 초기세척효과 분석,윤영삼;권헌각;이재운;유재정;이재관;

Journal of Environmental Science International, 2011. vol.20. 8, pp.977-986 crossref(new window)
4.
과수재배지 비점오염부하량 추정회귀식 비교 검증,권헌각;이재운;이윤정;천세억;

한국물환경학회지, 2014. vol.30. 1, pp.8-15 crossref(new window)
5.
농촌의 비닐하우스 재배지역에서 배출되는 강우유출수의 특성,전제찬;이상협;권구호;이재운;권헌각;민경석;

한국습지학회지, 2014. vol.16. 4, pp.413-422 crossref(new window)
 References
1.
권순국, 1998, 우리나라 비점원 수질오염 관리의 문제점과 개선방안, 대한환경공학회지, 20(11), 1497-1510.

2.
박연희, 박석순, 2004, 강우강도에 따른 토지이용별 비점오염원 부하량 산정 함수 연구, 대한환경공학회지 26(10), 1070-1078.

3.
방기웅, 이준호, 유명진, 1997, 도시소유역에서의 비점오염원 유출특성에 관한 연구, 한국수질보전학회지, 13(1), 79-99.

4.
방기웅, 이준호, 최종수, 2000, 강우시 산업단지에서의 오염물질 유출 특성, 대한환경공학회지, 22(2), 341-353.

5.
신찬기 등, 2008, 주요 비점오염원 유출 장기모니터링 및 저감기법연구, 환경기초조사사업, 낙동강수계관리위원회, 국립환경과학원 낙동강물환경연구소, 연차보고서.

6.
이재관 등, 2009, 주요 비점오염원 유출 장기모니터링 및 저감기법연구, 환경기초조사사업, 낙동강수계관리위원회, 국립환경과학원 낙동강물환경연구소, 연차보고서.

7.
이현동, 배철호, 2002, 비점오염원 유출특성과 저감을 위한 최적관리방안, 한국물환경학회지, 18(6), 569-576.

8.
이현동, 안재환, 김운지, 배철호, 2001, 토지이용별 강우시 비점오염 물질의 유출특성, 한국물환경학회지, 17(2), 147-156.

9.
환경부, 1995, 비점오염원조사연구사업보고서

10.
Patrick, L. B., Teresa, H. S., 2002, Analysis and predictive models of stormwater runoff volumes, loads, and pollutant concentrations from watersheds in the Twin Cities metropolitan area, Minnesota, USA, Water Research, 36(1), 1743-1757. crossref(new window)