We investigated flood control capacity of 484 agricultural reservoirs with storage capacity of over 1 million m3 in South Korea. In general, agricultural reservoir secures flood control capacity by setting up limited water level during flood season fr...
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RISS 인기검색어
https://www.riss.kr/link?id=T13697638
- 저자
-
발행사항
청주 : 충북대학교, 2015
-
학위논문사항
학위논문(박사) -- 忠北大學校 大學院 , 地域建設工學科 地域環境水利工學專攻 , 2015. 2
-
발행연도
2015
-
작성언어
한국어
- 주제어
-
KDC
537.4 판사항(5)
-
발행국(도시)
충청북도
-
기타서명
Evaluation of Flood Control Ability of Agricultural Reservoirs during Flood Season
-
형태사항
ix, 106 p. : 삽화 ; 26 cm.
-
일반주기명
충북대학교 논문은 저작권에 의해 보호됩니다
지도교수: 金鎭洙
참고문헌: p.82-83 -
소장기관
- 국립중앙도서관
- 충북대학교 도서관
- 국립중앙도서관
-
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상세조회 -
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부가정보
다국어 초록 (Multilingual Abstract)
We investigated flood control capacity of 484 agricultural reservoirs with storage capacity of over 1 million m3 in South Korea. In general, agricultural reservoir secures flood control capacity by setting up limited water level during flood season from late June to mid-September. The flood control capacity of an agricultural reservoir during flood season can be divided into stable flood control capacity during non-flood season, stable flood control capacity associated with limited water level, and unstable flood control capacity associated with limited water level. In general, the flood control capacity significantly (P < 0.001) increased with reservoir capacity irrespective of type of spillway. The unstable flood control capacity accounted for about 20 % of reservoir capacity in the uncontrolled reservoirs. The study reservoirs showed flood control capacity of 0.60-65 billion (B) m3 and stable flood control capacity of 0.43-47 B m3, depending on the upper and lower limited water levels during the flood season. The stable flood control capacity of the controlled reservoirs (0.29-0.33 B m3) was about two times than that of uncontrolled reservoirs (0.14 B m3). Moreover, the reservoirs with over 100 mm ratio of flood control capacity to watershed area accounted for 38 % of total controlled reservoirs.
The flood control volume of 28 agricultural reservoirs with 20-year water storage data were examined for the 10 frequency wet year. The flood control volume significantly (P < 0.001) increased with effective reservoir capacity in the 10 frequency wet year. The flood control volume during flood season in 10 frequency wet year were estimated as 0.13 to 0.28 B m3. The ratios of flood control volume to effective reservoir capacity during flood season in 10 frequency wet year were 15 % for early season, 7 % for mid season, and 11 % for late flood season, suggesting that flood control operation of the reservoir is most important during mid season.
The results indicate that many agricultural reservoirs may contribute to flood attenuation in the small watersheds.
The flood control volume of 28 agricultural reservoirs with 20-year water storage data were examined for the 10 frequency wet year. The flood control volume significantly (P < 0.001) increased with effective reservoir capacity in the 10 frequency wet year. The flood control volume during flood season in 10 frequency wet year were estimated as 0.13 to 0.28 B m3. The ratios of flood control volume to effective reservoir capacity during flood season in 10 frequency wet year were 15 % for early season, 7 % for mid season, and 11 % for late flood season, suggesting that flood control operation of the reservoir is most important during mid season.
The results indicate that many agricultural reservoirs may contribute to flood attenuation in the small watersheds.
We investigated flood control capacity of 484 agricultural reservoirs with storage capacity of over 1 million m3 in South Korea. In general, agricultural reservoir secures flood control capacity by setting up limited water level during flood season from late June to mid-September. The flood control capacity of an agricultural reservoir during flood season can be divided into stable flood control capacity during non-flood season, stable flood control capacity associated with limited water level, and unstable flood control capacity associated with limited water level. In general, the flood control capacity significantly (P < 0.001) increased with reservoir capacity irrespective of type of spillway. The unstable flood control capacity accounted for about 20 % of reservoir capacity in the uncontrolled reservoirs. The study reservoirs showed flood control capacity of 0.60-65 billion (B) m3 and stable flood control capacity of 0.43-47 B m3, depending on the upper and lower limited water levels during the flood season. The stable flood control capacity of the controlled reservoirs (0.29-0.33 B m3) was about two times than that of uncontrolled reservoirs (0.14 B m3). Moreover, the reservoirs with over 100 mm ratio of flood control capacity to watershed area accounted for 38 % of total controlled reservoirs.
The flood control volume of 28 agricultural reservoirs with 20-year water storage data were examined for the 10 frequency wet year. The flood control volume significantly (P < 0.001) increased with effective reservoir capacity in the 10 frequency wet year. The flood control volume during flood season in 10 frequency wet year were estimated as 0.13 to 0.28 B m3. The ratios of flood control volume to effective reservoir capacity during flood season in 10 frequency wet year were 15 % for early season, 7 % for mid season, and 11 % for late flood season, suggesting that flood control operation of the reservoir is most important during mid season.
The results indicate that many agricultural reservoirs may contribute to flood attenuation in the small watersheds.
목차 (Table of Contents)
- Ⅰ. 서 론 1
- Ⅱ. 연구사 3
- Ⅲ. 재료 및 방법 6
- Ⅰ. 서 론 1
- Ⅱ. 연구사 3
- Ⅲ. 재료 및 방법 6
- 3.1 대상저수지 6
- 3.1.1 홍수조절용량 산정 대상저수지 6
- 3.1.2 홍수조절량 산정 대상저수지 9
- 3.2 연구방법 12
- 3.2.1 홍수조절용량의 구분 및 산정방법 16
- 3.2.2 홍수조절량의 정의 및 산정방법 20
- 3.2.3 통계적 분석 방법 21
- Ⅳ. 결과 및 고찰 22
- 4.1 수문의 종류 및 제원 22
- 4.2 저수용량 26
- 4.3 홍수위와 만수위 차이 27
- 4.4 홍수기 제한수위의 저수율 28
- 4.5 홍수조절용량 31
- 4.5.1 비홍수기 안정 홍수조절용량 31
- 4.5.2 제한수위 설정에 따른 안정 홍수조절용량 33
- 4.5.3 제한수위 설정에 따른 불안정 홍수조절용량 35
- 4.5.4 홍수기 안정 홍수조절용량 36
- 4.5.5 총 홍수조절용량 37
- 4.5.6 홍수조절용량의 비 38
- 4.5.7 유역비 홍수량 40
- 4.6 대상저수지의 관개기 저수율 변화 42
- 4.6.1 풍수년과 갈수년의 강수량 42
- 4.6.2 20년 평균의 순별 저수율 45
- 4.6.3 풍수년의 저수율 49
- 4.6.4 갈수년의 저수율 52
- 4.7 최소 저수율 55
- 4.8 홍수기 평균 저수율 57
- 4.8.1 평균 저수율의 연별 변화 57
- 4.8.2 10년 빈도 풍수년의 저수지별 저수율의 변화 59
- 4.8.3 20년 평균 저수율 61
- 4.8.4 10년 빈도 풍수년의 평균 저수율 63
- 4.9 홍수기 저수율의 시간적 변화 65
- 4.9.1 중규모 저수지 65
- 4.9.2 대규모 저수지 69
- 4.10 유효저수량과 저수율의 관계 73
- 4.11 유효저수량과 홍수조절량의 관계 75
- 4.12 대상저수지 홍수조절량 평가 78
- V. 결 론 80
- 참고문헌 82
참고문헌 (Reference)
1. 황룡강 저수지 군 하류하천영향 평가, 전상민, 황순호, 송정현, 김지혜, 강문성, 최진용, 이상현, 유역, 한국농공학회논문집,54(3),pp.103-111, , 2012
2. 금강 상류 유역의 저수지 홍수저감지수 산정, 고아라, 이효상, 한국방재학회, 한국방재 학회지,11(5),pp.273-280, , 2011
4. 이상강우에 대비한 성주댐의 홍수조절 능력 분석, 한건연, 권순국, 최혁준, 서승덕, 한국농공학회, 전원과 자원,45(6)pp.109-118, , 2003
6. 관개저수지의 적정 홍수조절용량 설정 방법한국농공학회지, 김태철, 이훈구, 민진우, 문종필, 40(2),pp.81-91, , 1998
7. 홍수조절용량 설정에 따른 증고 저수지의 용수공급능력변화, Noh, Jae-Kyoung, 노재경, 한국관개배수위원회, 한 국관개배수,17(2),pp.57-70, , 2010
8. 둑높이기 농업용저수지의 환경 용수 방류를 위한 운영기준 설정, 조영현, 최진용, 유승환, 김해도, 이상현, 한국수자원학회 2012년도 학술발표회,p. 447, , 2012
1. 황룡강 저수지 군 하류하천영향 평가, 전상민, 황순호, 송정현, 김지혜, 강문성, 최진용, 이상현, 유역, 한국농공학회논문집,54(3),pp.103-111, , 2012
2. 금강 상류 유역의 저수지 홍수저감지수 산정, 고아라, 이효상, 한국방재학회, 한국방재 학회지,11(5),pp.273-280, , 2011
4. 이상강우에 대비한 성주댐의 홍수조절 능력 분석, 한건연, 권순국, 최혁준, 서승덕, 한국농공학회, 전원과 자원,45(6)pp.109-118, , 2003
6. 관개저수지의 적정 홍수조절용량 설정 방법한국농공학회지, 김태철, 이훈구, 민진우, 문종필, 40(2),pp.81-91, , 1998
7. 홍수조절용량 설정에 따른 증고 저수지의 용수공급능력변화, Noh, Jae-Kyoung, 노재경, 한국관개배수위원회, 한 국관개배수,17(2),pp.57-70, , 2010
8. 둑높이기 농업용저수지의 환경 용수 방류를 위한 운영기준 설정, 조영현, 최진용, 유승환, 김해도, 이상현, 한국수자원학회 2012년도 학술발표회,p. 447, , 2012
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