• 제목/요약/키워드: Combined Sewer Overflow

검색결과 40건 처리시간 0.018초

우오수분리벽을 이용한 합류식 하수관거와 분류식 우수관거의 월류수 제어효과 비교 (Comparison of Pollutant Control in Combined Sewer Overflows and Separated Sewer Overflows using the Separation Wall)

  • 임봉수;김도영;이광춘
    • 한국물환경학회지
    • /
    • 제23권4호
    • /
    • pp.458-466
    • /
    • 2007
  • This study is to evaluate control effects of separation wall by surveying water quality and sewer overflows during dry and wet periods in combined sewer and separated sewer systems. Ravine water from the combined Seokgyo outfall with the separation wall was separated about four times larger than sewage flow during dry periods. The water quality of the combined Seokgyo outfall with separation wall during dry periods is flow weighed average BOD 61 mg/L, the combined Cheonseokgyo outfall without the separation wall is average BOD 71 mg/L, and the separated Pyeongsong center outfall is average BOD 41 mg/L. The BOD concentration in separated outfall form about 57% of the combined outfall, and this means the separated outfall (i.e. storm sewer) is polluted by inflow of sewage. The overflow load of the separated outfall is ten times higher than the combined outfall and its overflow load per rainfall is three times than combined outfall during the wet periods. Therefore, the control plan of overflow load is required in storm sewer. The control effects of the overflow load increased 79% by setting the separation wall in the combined sewer, and showed 27% increase without the separation wall in separated sewer, but forecasted over 80% increase of effects if the separation wall was set.

The effect of Combined Sewer Overflows on river's water quality

  • Bae, Hun Kyun
    • Membrane and Water Treatment
    • /
    • 제11권1호
    • /
    • pp.49-57
    • /
    • 2020
  • The effect of Combined Sewer Overflow on the river system was investigated throughout three preliminary field tests and three main ones. As a result of the study, Combined Sewer Overflow did not affect water qualities on the main stream since the concentration of the main stream did not significantly changed during rainfall events although the water quality of tributaries has rapidly deteriorated due to the influence of the Combined Sewer Overflow during rainfall events. The main cause of the result is that the flow rate of the tributaries is considerably lower than that of the main stream, so that the tributaries with deteriorated water quality during rainfall events did not significantly affect the quality of the actual main stream. Therefore, the water quality of the Kumho River is more affected by the wastewater treatment facilities that discharges water continuously to the main stream than pollutants from non-point pollution sources during rainfall events. As a result, managements for discharges from wastewater treatment facilities should be strengthened in order to improve the water quality of the river.

Control of the Sediment in a Combined Sewer Using a Separation Wall

  • Lim, Bong Su;Kwon, Chung Jin;Kim, Do Young;Lee, Kuang Chun
    • Environmental Engineering Research
    • /
    • 제18권2호
    • /
    • pp.71-75
    • /
    • 2013
  • This study is to evaluate the effects of the separation wall on the sediment quality and quantity in a combined sewer, by surveying the sewer overflow and sediments during a rainfall. Since the separation wall installed in the combined sewer separates the rainfall and the sewage, the flow rate of the sewage is increased, and the amount of the sediment deposited on the sewer is decreased. One sampling point was the outfall of Daesacheon with a separation wall, and the other was the outfall of Gwaryecheon without a separation wall, in Daejeon metropolitan city. The maximum control of the biochemical oxygen demand (BOD) overflow load was more than 38% in the Daesacheon point with the separation wall, during a rainfall of 0.11 mm/hr. The maximum control of the BOD overflow load was 24% in Gwaryecheon without a separation wall, during a rainfall of 1.0 mm/hr. According to the survey results of the sediment in the sewer, the discharged sediment deposited on the sewer in Gwaryecheon point was about 23% to 28% of the total suspended solid during the rainfall. In addition, the average velocity of sewage in the presence of sediment was about 0.30 m/s, and if the separation wall is installed, it was expected to be about 1.01 m/s, that is 3.4 times more than the same conditions, resulting in the reduction of the sediment deposit.

합류식 월류수와 분류식 우수유출수의 비점오염물질 유출특성 비교 (Comparison of Characteristics of Nonpoint Source Pollution from Separate and Combined Sewer System)

  • 신민환;전지홍
    • 한국물환경학회지
    • /
    • 제33권1호
    • /
    • pp.97-106
    • /
    • 2017
  • In this study, the characteristics of nonpoint source pollutant loads from separate sewer overflow (SSO) and combined sewer overflow (CSO) were evaluated during 2016 in Namyangju city, Korea. Five rainfall events were monitored during 2016 with ranging from 14.5 mm to 121.5 mm. The runoff ratio of CSO was higher than that of SSO because only design volume of maximum sanitary sewer ($1Q_h$) was transported and treated and $2Q_h$ was overflowed to waterbody during rainy day although combined sewer system was designed to transport $3Q_h$ to treatment system. The event mean concentrations (EMCs) and pollutant loads from CSO were higher than those from SSO. BOD and COD of CSO, and TOC and TN of SSO represented distinct first flush phenomena. The inadequate management in combined sewer system from which the untreated $2Q_h$ from CSO was overflowed to waterbody during rainy day could influence on high pollutant loads and first flushing. Treating $2Q_h$ from CSO, source control such as low impact development, and treating outflow from SSO were strongly recommended to control non-point source pollution in urban area.

합류식 하수관거내 퇴적물이 CSOs에 미치는 영향 및 제어방안 (Effect and Control of the Sediment in the Combined Sewer on CSOs)

  • 임봉수;김도영;이광춘
    • 한국물환경학회지
    • /
    • 제27권1호
    • /
    • pp.36-43
    • /
    • 2011
  • This study is selected two points of combined sewer that occurred Fish Kill after first flush, that analyzed generation of pollutants and stream runoff generation of combined sewer overflows (CSOs) as fine weather and rainfall. In addition, this study was to analyze the relationship between CSOs and sediments, to propose measures to reduce the sediment relevant with CSOs and rainfall runoff from entering sewage treatment plants and measures for discharged directly into streams when indicate relatively good water quality after overflow. Sediments in combined sewer system was discharged about 50~80% as overflows during rainfall and we can reduce the amount of the CSOs at least 50% or more if the sewer does not exist in the sediments because of the amount of discharge about the amount of intercept has been investigated by 3~5 times. Because of velocity at sediment interval in sewer is very low, sewage velocity of about 3~5 times as much as it can increase the amount of sediment can be reduced if the separation wall is installed. Effective control of BOD overflow load is respectively 77.5%, 75.8% at first point, second point by the separation wall is installed. Drainage area greater than area in this study or many combined sewer overflows region is increased the more effective control of separation wall. Turbidity to measure changes in water quality of overflows can be used as an factor to control the intercept flows because the intercept flows(3Q) after the first flush has lowered removal efficiency and increases the operational load of sewage treatment plants. Sewage water quality after a overflow when the reasonable turbidity was measured at this point flows to excluded intercept flow(1Q) can be discharged to stream.

오염부하 물질수지 분석을 통한 합류식 하수관거 적정 차집용량 결정(II) - 차집용량과 월류오염부하 삭감목표 설정 - (Determination of Interception Flow by Pollution Load Budget Analysis in Combined Sewer Watershed (II) - Establishment of Intercepting Capacity and Reduction Goal of Overflow Pollution Load -)

  • 이두진;신응배
    • 상하수도학회지
    • /
    • 제19권5호
    • /
    • pp.557-564
    • /
    • 2005
  • The objective of this study is to evaluate a criteria of intercepting capacity and a reduction goal of overflow pollution load in combined sewer system. In the current criteria of intercepting capacity in the domestic sewage facility standard, it is known that three times of peak sewage (Q) in dry period or runoff flow by 2mm/hr is not appropriate since the intercepted flow is estimated by runoff and show different result even in the same watershed. Though a reduction goal of overflow pollution load can be determined from 1) same level of storm-water runoff pollution load in separated storm sewer, 2) less than 5% sewage load in dry weather period, by the domestic sewage facility standard, the simulated results from storm-water model show large differences between two criteria. While it is predicted that sewage pollution load standard three time larger than separated storm sewer standard in high population density and urbanized area, it is shown that separate storm sewer standard larger than sewage pollution load standard in middle population density and developing area. Accordingly, it is proposed that more reasonable intercepting flow and reduction goal of overflows pollution load should be established to minimize discharging pollution load in combined sewer systems. For the purpose, a resonable standard has to be amended by pollution load balance considering the characteristics of a watershed for generation, collection, treatment, and discharging flow.

A Study on Runoff Characteristics of Combined Sewer Overflow(CSO) in Urban Area Using GIS & SWMM

  • Kim, Jae-Hoon;Paik, Do-Hyeon
    • 한국환경보건학회지
    • /
    • 제31권6호
    • /
    • pp.467-474
    • /
    • 2005
  • The runoff characteristics of combined sewer overflow(CSO) in the urban area of Jeonju were investigated and analyzed by using the SWMM (Storm Water Management Model) and GIS. From August to November 2004, investigations on two rainfall events were performed and flowrate, pH, BOD, COD, SS, T-N and T-P were measured. these data were used for model calibration. Using GIS technique, watershed characteristics of study area were calculated. that is, divide into sub_basin, total width, slope, make soil map etc. On the basis of the measured data and the simulation results by SWMM, it could be known that the $80-90\%$ of pollution load are discharged in early-stage storm runoff. SMC(site mean Concentration) for combined sewer system area were BOD 28.1, COD 31.5, SS 186 ppm etc. this is shown that during the rain fall, high concentration of waste was loaded to receiving water. Unit loads of combined sewer system area were BOD 306, COD 410, SS 789, T-N 79, T-P 6.8 kg/ha/yr.

장기간 강우-유출 모의를 통한 합류식하수관로시스템의 월류부하량 저감목표 설정 연구 (Set up Reduction Goals of Combined Sewer Overflow Pollutant Load Using Long-Term Rainfall-Runoff Model Simulation)

  • 이건영;나용운;류재나;오재일
    • 대한환경공학회지
    • /
    • 제35권11호
    • /
    • pp.785-794
    • /
    • 2013
  • 합류식하수관로시스템에서 강우시 유출수는 관로내 퇴적물과 지표면 세척효과에 의한 오염물질 등이 혼합되어 하천으로 방류되기 때문에 방류수계에 화학적 물리적 생물학적으로 상당한 문제를 야기하지만, 현재 국내에서는 CSOs의 오염 부하량 관리기준을 결정함에 있어 통일된 방법론이 부재한 실정이다. 이에 따라 본 연구에서는 우수유출모형을 활용한 장기간 CSOs 유량-수질모의를 통하여 CSOs의 오염부하량 저감목표를 설정하고자 한다. 이를 위하여 국내외 CSOs 관리기준을 검토하였으며, 그 결과 연간 총 월류부하량 및 발생빈도를 총 2단계로 구분하여 관리하고, 1단계에서는 60%, 2단계에서는 85%를 저감하는 것을 목표로 설정하였다. 도출된 저감 목표 기준을 대상지역에 적용하여 장기간(최소 10년간)의 CSOs 발생 모의를 바탕으로 분석한 결과, BOD 월류부하량 저감목표는 1단계 1,123 kg, 2단계 2,374 kg이었으며, 목표 달성을 위해 대응해야 할월류량은 1단계 $11,685m^3$, 2단계 $24,701m^3$으로 나타났다.

개인 전산기를 이용한 도시합류관거의 흐름해석 (Flow Analysis of Urban Combined Sewer by Personal Computer)

  • 전병호;이형기;구자공;신항식
    • 대한토목학회논문집
    • /
    • 제8권1호
    • /
    • pp.127-140
    • /
    • 1988
  • 도시의 급속한 팽창에 따라 하수 및 우수관리에 대한 문제가 점점 대두되고 있다. 도시내의 가정과 공장 등에서 나오는 오수 및 폐수들은 지하의 하수관거를 통하여 처리장이나 일반하천으로 방출되는데, 합류식 관거의 경우에는 강우로 인한 유출수까지도 이동시키는 역할을 담당하게 된다. 그런데 강우로 인한 유출수는 폐수나 오수처럼 인위적인 비율로 취급될 성질의 것이 아니므로 강우강도의 차이나 강우량에 따라서 가용적을 초과하여 관거내 압력류(surcharge)나 맨홀상부 범람 현상(overflow)을 발생시키게 된다. 따라서 어느 정도의 하수나 우수량은 감당할 수 있지만 장마철과 같이 강도가 높은 강우가 발생할 때에는 관경이 작거나 경사가 완만한 곳으로부터 지표면상으로 하수 및 우수가 동시에 범람되어 지대가 낮은 지역의 침수현상을 흔히 볼 수가 있다. 이번 연구는 하수관거의 이러한 흐름특성(flow characteristic)을 수치해석방법을 이용하여 해석함으로써, 설계된 관거에 있어서 관경 및 관경사등의 보정에 참고자료로서의 가능성을 찾는데 있었다. 본 연구는 유한차분법(finite difference method) 중 4점 음해법(four point implicit method)을 이용하며 Preissmann Slot Concept를 컴퓨터 용량에 제약이 없는 중첩분할법(Overlapping Segment Method)에 도입함으로써 압력류(surcharge) 및 맨홀의 범람 현상을 용이하게 파악할 수 있도록 시도하였다. 가상관망에 대한 모델의 실행결과 각 관거내의 수위 및 유량곡선의 시간적 분포를 통해 Slot의 적용의 실효성을 확인할 수 있었으며, 관거의 입구 및 출구에서의 유량보존이 성립함으로써 모델의 합리성이 제시되었다.

  • PDF

초기우수 관거유입계수 산정 및 오염부하 기여도 평가 (Evaluation of First Flush Rainfall Inflow and Pollution Loads into Manhole against Combined and Sanitary Sewer Overflows)

  • 김홍태;신동석;김용석
    • 한국물환경학회지
    • /
    • 제31권1호
    • /
    • pp.67-70
    • /
    • 2015
  • Some data into combined and sanitary sewer system were collected in order to find out the characteristics of discharge from first flush rainfall inflow. The inflow ratios of combined and sanitary sewer system were 0.46 and 0.27 during rains from various survey data. The average inflow ratio 0.31 was appropriate for general application because many watersheds were not classified clearly as combined or sanitary sewage treatment areas. The percentage of first flush loads in the whole BOD load was about 10%. This result was thought some meaningful, comparing with similarity of first flush pollution load contribution previous surveyed by KECO (2004).