• 상하수도학회지
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• 제21권3호
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• pp.295-303
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• 2007

Nitrogen compounds in municipal wastewater can be divided into biodegradable and nonbiodegradable fractions with biodegradability. Biodegradable nitrogen compounds can be removed through biological nitrification and denitrification processes, and nonbiodegradable nitrogen compounds affect the effluent quality of biological nutrient removal processes. The amount of nitrifiable nitrogen compounds, which are the sum of ammonia and biodegradable organic nitrogen, has been estimated by respirometry. Respirometry shows good estimation of the concentration of nitrifiable nitrogen when a synthetic sample of ammonium chloride is dosed. The estimated concentration of nitrifiable nitrogen compounds in municipal wastewater is close to ammonia concentration in municipal wastewater, but it is lower than that for the synthetic sample. If nitrogen assimilated into cell synthesis of nitrifiers and heterotrophs is considered, the total amounts of nitrifiable nitrogen compounds, which are nitrified and assimilated, could be more accurately estimated. The concentration of nitrifiable nitrogen compounds, which are biodegradable, is about 31 mg N/l, and this is 119% of ammonia and 94% of total nitrogen. Ammonia, nitrate, biodegradable organic nitrogen, and nonbiodegradable nitrogen are about 79%, 1%, 15%, and 5% of the total nitrogen in municipal wastewater, respectively.

• 산업기술연구
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• 제16권
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• pp.51-60
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• 1996

This research was performed for the fundamental data using a advanced treatment process of piggery wastewater. Characteristics of influent wastewater was divided with various methods in fixed biofilm batch reasctor. Fractons of organic were divided into readily biodegradable soluble COD(Ss), slowly biodegradable COD(Xs), nonbiodegradable soluble COD($S_I$), and nonbiodegradable suspended COD($X_I$). Experimental results were summerized as following : i) biodegradable organics fraction in piggery wastewater was about 88.1 percent, and fraction of readily biodegradable soluble COD was about 66.1 percent. ii) Fractions of nonbiodegradable soluble COD was 11~12 percent, and soluble inert COD by metabolism was producted about 6~8 percent. iii) Active biomass fraction of attached biofilm was about 54.7 percent, and substrate utilization rate and maximum specific growth rate of heterotrophs were $8.315d^{-1}$ and $3.823d^{-1}$, respectively.

• 한국응용과학기술학회지
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• 제22권3호
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• pp.250-256
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• 2005

This study was aimed to investigate treatment feasibility of leachate from D landfill that is located in gyr대ungbuk. From the analytical results of leachate, organic and nonbiodegradable matters were contained in high concentration. Thus chemical treatment was introduced to degrade nonbiodegradable matters in pre or post biological process. Two types of Fenton oxidation were adapted in this study. The first one is pre treatment process before biological treatment. The second one is post treatment process after biological treatment. The optimal conditions of both treatment methods were investigated as follows. In case of pre treatment process, the optimal conditions appeared in $Fe^{+2}/H_2O_2$(mmol/mmol): 0.1, $H_2O_2/CODcr$(mg/mg): 27.0, pH: 3 and reaction time: 2hrs. On the other hand, in case of post treatment process, the optimal conditions appeared in $Fe^{2+}$(mmol/mmol): 0.14, $H_2O_2/COD_{cr}$(mg/mg): 57.4, pH: 3 and reaction time: 1.25hrs. In the above optimal conditions, high COD removal was obtained in pre and post treatment process. Also it can expect that Fenton oxidation converted nonbiodegradable matters into biodegradable matters.

• 대한토목학회논문집
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• 제8권3호
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• pp.113-118
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• 1988

도시하수(都市下水) 처리시설(處理施設)로부터 생산(生産)되는 1차(次)와 2차(次) 슬러지의 생물학적(生物學的) 분해불능정도(分解不能程度)를 실험실(實驗室) 호기성(好氣性)과 혐기성(嫌氣性) 소화조(消化槽)를 운전(運轉)시켜 비교(比較)하였다. 1차(次) 슬러지의 분해불능(分解不能) 함량(含量)은 45~47%, 2차(次) 슬러지는 58~68%로 나타났으며 최대(最大) $CH_4$ 가스 생산량(生産量)은 kgVS제거(除去)당 1차(次)의 경우(境遇)에는 $0.76m^3$, 2차(次)의 경우(境遇)는 $0.54m^3$ 이었다. 1차(次)와 2차(次)슬러지의 소화(消化)가스 내(內)의 $CH_4$ 함량(含量)은 63%와 65%였다.

• 상하수도학회지
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• 제34권6호
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• pp.445-462
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• 2020

Industrial wastewater often contains a number of recalcitrant organic contaminants. These contaminants are hardly degradable by biological wastewater treatment processes, which requires a more powerful treatment method based on chemical oxidation. Advanced oxidation technology (AOT) has been extensively studied for the treatment of nonbiodegradable organics in water and wastewater. Among different AOTs developed up to date, ozonation and the Fenton process are the representative technologies that widely used in the field. Based on the traditional ozonation and the Fenton process, several modified processes have been also developed to accelerate the production of reactive radicals. This article reviews the chemistry of ozonation and the Fenton process as well as the cases of application of these two AOTs to industrial wastewater treatment. In addition, research needs to improve the cost efficiency of ozonation and the Fenton process were discussed.

• 한국환경농학회지
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• 제7권2호
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• pp.136-145
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• 1988

도시폐기물의 퇴비화 과정중 퇴비중의 탄소화합물 함량을 시기별로 조사한 결과 다음과 같다. 1. 유기물, 섬유소, 총 탄소, 유기탄소, 미생물 분해가능 탄소 함량은 퇴비화에 따라 감소되었고 리그닌, 미생물 이용 불가능 탄소함량은 약간 증가 되었다. 2. 총 탄소와 미생물 분해가 가능 탄소 함량과 차이는 6.2% 였다. 3. 유기물질의 실제 분해율은 분해율보다 큰 증가 현상을 보였다. 4. 모든 탄소화합물의 실제 분해 능력은 분해능력과 유사하였다. 5. 리그닌의 분해율 및 분해능력은(-)값을 보였으나, 실제 분해율 및 실제분해 능력은(+)값을 가졌다. 6. 퇴비중 유기물, 섬유소, 총탄소, 유기탄소, 미생물 이용 가능 탄소간에 고도의 유의성있는 정의 상관이있었다. 7. 미생물 분해불가능 탄소와 유기물, 섬유소, 총 탄소 유기탄소 및 미생물 분해가능 탄소와는 부의 상관이 있었다. 8. 퇴비중 리그닌과 미생물에 분해 불가능 탄소와도 고도의 정의 상관이 있었다.

• 환경위생공학
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• 제20권1호
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• pp.32-39
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• 2005

Recently, sanitary landfill was one of the most widely used for disposal of waste in Korea. With increasing of use and public awareness of this method for disposal. there is an increased concern with respect to the pollution potential by the landfill leachate. Especially, an aged landfill leachate contained relatively large amount of the nonbiodegradable substances which could not be removed by biological treatment processes. So, this study was conducted to the removal of nonbiodegradable substances, such as Humic acid and Fulvic acid with the electrolysis. In this study, electrode materials, electrolyte concentration, electrode distance, current density, and pH value were found to have significant effect on both pollutant removal efficiency and current efficiency in electrochemical oxidation process.

• 한국물환경학회지
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• 제22권1호
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• pp.134-139
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• 2006

Partial nitirification and denitrification process has been reported to be technically feasible and economically favorable, especially for wastewater treatment with high ammonium concentration or low Carbon/Nitrogen ratio. This research was performed to survey nitrite accumulation by nitritation in treating ADEPT effluent of piggery wastewater, which contains highly concentrated ammonia. To estimate the possibility of nitrite accumulation, DO concentration and SRT were investigated as key operational parameters. This result proved that nitritation to nitrite was steadily obtained under short sludge retention time. Oxygen limitation was proved to be just a subsidiary parameter. Energy efficiency of nitritation-denitritation process was higher than complete nitrification-denitrification because external carbon requirement for denitritation could be saved. Though the influent contained significant nonbiodegradable organic substrate, total nitrogen removal efficiency was more than 51% in nitritation-denitritation system.

• 한국환경과학회지
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• 제4권1호
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• pp.81-90
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• 1995

In order to provide the basic information for the water quality modeling, the water pollution indicators of Sin stream and Keumho river flowing through Taegu city were measured, and the Periodical variations of these indicators were studied under the condition of stagnating for 19 days. For this experiment, three sampling sites(Sungpook bridge, Mutae bridge and Gangchang bridge) were selected. Sungpook bridge is located most down the Sin stream, Mutae bridge and Gangchang bridge are located on the lower Keumho river. The results were as follows. 1. The values of water pollution indicators measured at Mutae bridge were pH 8.7, TSS 51mg/1, TS 383mg/1, Cl- 60.68mg/1, turbidity 32FTU, DO 8.58mg/1, oxygen deficit 2.02mg/1, COD 16.32mg/1, organic carbon 13.60mg/1. 2. At Gangchang bridge located down more than Mutae bridge, the values of these indicators were pH 8.0, TSS 26mg/1, TS 737mg/1, Cl- 90.59mg/1, turbidity 37FTU,DO 3.49mg/1, oxygen deficit 7.11mg/1, COD 28.02mg/1, organic carbon 14.28mg/1. 3. At Sungpook bridge, the values of these indicators were pH 8.3, TSS 145mg/1, TS 344mg/1, Cl- 32.51mg/1, turbidity 60FTU, DO 6.53mg/1, oxygen deficit 4.07mg/1, COD 43.79mg/1, organic carbon 11.03mg/1. 4. At Mutae bridge and Sungpook bridge of which initial DOs were high, DOs have decreased under the condition of stagnating for 7 days and increased after that time. On the contrary, at Gangchang bridge of which oxygen deficit was very high(7.11mg/l), DO have increased under the condition of stagnating for 13 days and decreased after that time 5. All the samples showed the quick decrease of CODs and organic carbons under the condition of stagnating for 19 days. Nevertheless, at Sungpook bridge ·of which initial COD was yeW high(43.79mg/1), the value of COD measured at the last day of experiment was still high(21.35mg/1) because of a large quantity of reducing inorganic matters. 6. All the samples didn't show the distinct decrease of turbidities because of a large quantity of nonbiodegradable inorganic solids.

• 한국환경농학회지
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• 제7권2호
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• pp.146-152
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• 1988

도시 폐기물의 퇴비화 과정중 퇴비중의 질소 화합물 함량을 시기별로 조사한 결과 다음과 같다. 1. 총 질소, 유기성 질소 및 미생물 이용 가능 질소 함량은 거의 변화가 없었으며 미생물 이용 불가능 질소 함량은 약간 증가하였다. 그러나 총 질소, 유기성 질소 및 미생물 이용 가능 질소의 유효성분 함량은 감소하였으며 미생물 이용 불가능 질소의 유효성분 함량은 거의 일정하였다. 2. 암모늄태 질소 함량은 초기에 높았다가 퇴비화가 진행됨에 따라 감소 하였으며 이적을 한 후에는 다시 증가하다가 감소하였다. 3. 질산태 질소 함량은 암모늄태 질소 함량과 반대 경향을 보였다. 4. 유기물 중 유기성 질소 함량은 증가하였으며 초기에는 완만한 증가현상을 보이다가 9주와 21주 사이에 급격히 증가하였다. 5. $F{\"{o}}rster$ 방법에 의한 총 질소 함량이 Kjeldahl 방법에 의한 것보다 높았으며 Kjeldahl 방법에 의한 총 질소 함량이 $F{\"{o}}rster$ 방법에 의한 미생물 이용 가능 질소 함량보다 6% 높았다. 6. 30주 후 총 질소 손실량은 Kjeldahl 방법으로 측정한 결과 50% $F{\"{o}}rster$ 방법으로 측정한 결과 48% 이었으며 초기 2주 내에 급격한 질소 손실이 일어났다. 7 Kjeldahl 방법에 의한 총 질소, 미생물 이용 가능 질소, $F{\"{o}}rster$ 방법에 의한 총질소 및 미생물 이용 가능 질소 상호간에 유의적인 정(+)의 상관이 있었다.