• KOREAN JOURNAL OF CROP SCIENCE
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• v.33 no.3
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• pp.222-228
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• 1988

This experiment was carried out to investigate the effects of N levels (0,10,20,30kg/10a) and N split rates [the rates of basal＋top dressing 15 days after transplanting (DAT) : top dressing 25 days before heading (DBH) was 100 : 0, 80 : 20, 60 : 40 ] on the growth, yield, yield components, and N uptake of Seomjinbyeo (J) and Samgangbyeo (I${\times}$J). The maximum tillering stage occurred in the middle of July in both varieties, but Samgangbyeo showed the second maximum tillering stage in the middle of August probably due to the retarded early growth caused by low temperature in the tillering stage and to favoring temperature in August. Grain yield of Seomjinbyeo was similar among the N levels from 10 to 30 kg/10a without occurrence of rice blast and lodging, but that of Samgangbyeo increased as N level increased upto 30 kg/10a. Grain yield of Seomjinbyeo was higher when N was applied three times (basal and two top dressings 15 DAT and 25 DBH) compared with two times (basal and top dressing 15 DAT), but that of Samgangbyeo was not different among the N split rates. Total N uptake and the proportion of fertilizer N to the total N uptake increased as N level was higher. N uptake tended to be higher as proportion of basal＋top dressing 15 DAT increased in early growth stage, but it was higher as proportion of N applied 25 DBH increased in the late growth stage. The N efficiency to produce grain per absorbed N unit decreased as N level decreased in Seomjinbyeo, but similar in Samgangbyeo.

• Proceedings of the Korea Water Resources Association Conference
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• 2021.06a
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• pp.421-421
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• 2021

도시화, 산업화로 인해 하수처리장 유입하수 내 질소 농도가 증가하면서 그에 따른 부영양화 발생, 수생태계에 독성을 미치는 등의 악영향 또한 증가하게 되었다. 하수 내 고농도 질소를 처리하기 위해 1990년 초 연구가 시작되어 현재 보편적으로 사용되고 있는 생물학적 질소 제거 공정은 산소공급과 외부탄소원 보충 과정에서 상당한 비용이 소요된다. 이와 같은 문제점이 대두됨에 따라 고도의 질소 제거 공정이 요구되면서, 경제적으로 개선이 이루어져 기존의 질산화·탈질 공정보다 효율적인 혐기성 암모늄 산화 공정(ANaerobic AMMonium OXidation, ANAMMOX)이 제안되었다. ANAMMOX 공정은 혐기성 조건 아래 전자공여체와 전자수용체로써 암모니아성 질소와 아질산성 질소를 이용해 질소가스 형태로 질소를 제거하는 공정이다. 질산화·탈질 공정과 비교했을 때, 폭기과정에서의 산소요구량 감소, 외부탄소원 불필요, 질소 제거 과정 단축 등의 장점을 가진다. 본 연구는 수처리공정에서의 ANAMMOX 공정의 적용 가능성을 확인하고, 암모니아성 질소대비 아질산성 질소 비율에 따른 Mainstream ANAMMOX 공정의 효율 비교를 통해 공정의 안정성과 높은 제거효율을 확보할 수 있는 NH₄⁺ 대비 NO₂^- 비율을 도출하는데 목적이 있다. 실험실 규모의 Mainstream ANAMMOX 반응조에 적용한 비율은 선행연구를 비롯한 화학양론식에서 제시된 비율을 바탕으로 산정하였다. 1.00부터 1.30의 전체적인 비율을 Initial과 Advanced 2개의 구간으로 나누어 운전한 결과, 각 구간의 NH₄⁺ 제거효율은 각각 58~86%, 94~99%였다. NH₄⁺ 대비 NO₂^- 비율이 증가함에 따라 공정의 안정성이 확보되고, NH₄⁺ 및 총질소(TN) 제거효율이 증가하는 경향이 나타났다. 본 연구의 결과는 수처리공정에서의 안정적인 ANAMMOX 공정 적용을 유도하고, ANAMMOX 공정의 성능개선을 도모하는 연구의 기초로 활용될 수 있다.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 1996.05a
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• pp.23-26
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• 1996

고주파 스퍼터링 방법에 의하여 상온에서 Si(100)기판 위에 AIN막을 형성하였다. 기판의 온도, 고주파 출력, 스퍼터링 시간, 질소의 비율을 변화인자로 해서 각 조건하에서 제작된 AIN의 결정질을 X선 회절법, 적외선 분광법, 전자현미경으로 상호비교 하였다. 자외선 투과법에 의해, 제작된 AIN 막의 금지대 폭은 4.27eV 이었다. 질소 비율에 따른 AIN 막두께의 변화는 질소비율 40∼60%에서 급격하게 일어났다.

• Proceedings of the Korean Vacuum Society Conference
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• 1999.07a
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• pp.219-219
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• 1999

플라즈마 이온 주입은 진공 chamber 내에 주입하려는 이온이 포함된 플라즈마를 발생시킨 후 처리하고자 하는 시편에 negative high voltage pulse를 인가함으로써 시편 주위에 형성되어 있는 이온들을 시편에 주입하는 방법이다. 이러한 플라즈마 이온 주입 방법은 금속의 내마모성, 내부식성, 강도 및 경도를 증가시키고, 고분자 화합물의 표면 개질에 있어서 친수성 또는 소수성과 같은 표면 처리를 쉽고 간단하게 처리할 수 있다. 그리고 반도체 공정의 shallow junction doping을 효과적으로 처리할 수 있으며 특히, 대면적의 시편에 균일하게 이온을 주입할 수 있다. 플라즈마 이온 주입 방법에서 중요한 요소는 dose, 즉 이온 주입한 양과 처리하려는 시편에 주입되는 이온의 에너지이다. 여기서, 플라즈마내에 생성된 이온들의 비율을 정확히 안다면 시편에 주입되는 이온의 양과 주입되는 이온의 에너지를 충분히 예견할 수 있다. 질소 플라즈마의 경우에는 N+와 N2+가 생성되므로, 시편에 주입된 질소 이온의 실질적인 이온당 질소 원자수는 1$\times$N+% + 2$\times$N+%가 되고, N2+의 경우는 N+ 주입 에너지의 1/2 로 시편내에 주입되게 된다. 또한 질소 플라즈마의 경우 N2+ 이온이 상대적으로 N+이온보다 많다면 N+가 많은 경우보다 이온 주입 깊이는 얕아지게 된다. 본 실험에서는 Dycor M-100 residual gas analyzer와 potical emission spectrometer (Ocean Optics SQ 2000)를 사용하여 압력과 RF power를 변화시키며 플라즈마내에 생성되어지는 질소 이온의 비율을 측정하였다. 또한 Langmuir probe를 이용하여 속도차에 의한 각 이온들의 존재비율을 계산하였다. 여기에서 질소 가스의 압력이 낮을수록 N+보다 N2+의 존재비율이 높음을 보였다. 이것은 압력이 낮은 영역에서 일반적으로 전자의 평균온도가 높기 때문으로 여겨진다.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.26 no.6B
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• pp.669-675
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• 2006

Intermittent aerobic digestion experiments using a sequencing batch reactor (SBR) were carried out in this study. Aeration ratio was found to be an important operation factor for the reduction of solids and nitrogen. As the sludge digested, organic nitrogen was released from the solids and oxidized to nitrate nitrogen. Biological denitrification was also significant and the denitrification rate was limited by aeration ratio. Under the condition of 0.25-0.75 of aeration ratio, acclimation of ammonia nitrogen was not observed and pH were preserved near neutral in the intermittent aerobic digestion. As the aeration ratio increased, solids reduction was increased whereas dissolved nitrogen removal was decreased. Based on the experiments, 17-2% of VSS reduction and over 80% of dissolved nitrogen removal were practicable by intermittent aerobic digestion using a SBR when the MSRT were designed 8-32 days and aeration ratio was operated about 0.25-0.75.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.53 no.1
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• pp.50-57
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• 2008

Winter season cultivation of rye as green manure for soybean have been a favorite with farmer because it could remove a risk of injury by continuous cropping and increase N uptake and yield of soybean. Effects of rye green manure on soybean N uptake, $N_2$ fixation and yield were investigated with $^{15}N$ as pot experiment in greenhouse in 2004 and field in 2005, respectively. The N derived from N fertilizer ($^{15}N$) in rye green manure increased with increasing of N fertilizer rate compared to N derived from soil. N uptake and DM yield of soybean at the pot with paddy soil was higher than those at the pot with upland soil mainly due to the increase of N uptake from paddy soil. Total $^{15}N$ recovery in soil was higher at rye green manure than no green manure because $^{15}N$ applied to rye plant was remained highly as soil organic N compared to chemical N fertilizer. $^{15}N$ recovery in soybean plant increased in proportion to amounts of N fertilizer applied to rye. The N fractions from $N_2$ fixation of soybean plant at the pot experiment in 2004 ranged from 92% to 95%, on the other hand those in field experiment in 2005 ranged from 82% to 84%. Estimation of amount of $N_2$ fixation was not different between Difference method and $^{15}N$ method in 2004 and 2005.

• Journal of Wetlands Research
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• v.23 no.1
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• pp.60-66
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• 2021

As the concentration of nitrogen in the sewage flowing into the sewage treatment plant increases due to urbanization and industrialization, the degree of adverse effects such as eutrophication and toxicity to the aquatic ecosystem is also increasing. In order to treat sewage containing high concentration of nitrogen, various studies on the biological nitrogen removal process are being conducted. Existing biological nitrogen removal processes require significant costs for supplying oxygen and supplementing external carbon sources. In this respect, as a high-level nitrogen removal process with economic improvement is required, an anaerobic ammonium oxidation process (ANAMMOX), which is more efficient and economical than the existing nitrification and denitrification processes, has been proposed. The purpose of this study is to confirm the stability of the ANAMMOX process in the water treatment process and to derive the ratio of ammonia nitrogen (NH4+) to nitrite nitrogen (NO2-) for the implementation of the mainstream ANAMMOX process. A laboratory-scale Mainstream ANAMMOX reactor was operated by applying the ratio calculated based on the substrate ratio suggested in the previous study. In the initial range, the removal efficiency of NH4+ was 58~86%, and the average removal efficiency was 70%. In the advanced range, the removal efficiency of NH4+ was 94~99%, and the average removal efficiency was 95%. As a result of the study, as the NH4+/NO2- ratio increased, the stability of the mainstream ANAMMOX process was secured, and it was confirmed that the NH4+ removal efficiency and the total nitrogen (TN) removal efficiency increased. As a result, the results of this study are expected to be used as basic data in the application of the ANAMMOX process in the mainstream.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.51 no.spc1
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• pp.30-34
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• 2006

The effect of N-fertilization on yield, milling characteristics and quality of Samcheonbyeo, an early maturing rice variety, was investigated in 2002 to 2004. The study was carried out in the southern alpine area of Un-bong Sub-Station, Honam Agricultural Research Institute. Higher nitrogen levels increased number of panicle and grain per unit area, but lowed ripening rate and decreased 1,000-grain weight. Higher nitrogen levels of up to 90 kg/ha also increased head rice yield. A nitrogen level of 90 kg/ha was found optimal for increasing ripening rate and head rice yield, and rice palatability.

• Proceedings of the Korean Society of Organic Agriculture Conference
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• 2008.12a
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• pp.139-145
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• 2008

1) 밭 토양의 질소공급능력은 밭작물 양분요구량의 1.2배였고, 논토양에서는 1.02로, 평균 1.11이었다. 2) 밭 토양에서 Ca, K 함량은 CNCs보다 낮았고, TN, Mg 함량은 CNCs보다 높았다. 논토양에서는 Ca, Mg, K는 CNCs보다 낮아서 양분의 불균형을 이루고 있다. 3) 작물생산량 중의 조사료 생산비율은 68.1%였다. 4) 조농비는 41:59(조사료 자급비율 91.4%) 5) 토양으로의 가축분뇨 질소환원 가능량은 1,034kg(발생 질소량의 60%)로 추정되었다. 6) 토양으로부터 작물로의 질소공급량은 토양 질소량의 72.4%인 1,383.3kg N으로 추정되었고, 천연양분공급량은 298.6 kg N, 잔류양분 287.7 kg N으로 추정되었다. 7) 토양-작물-가축간의 물질수지는 거의 균형을 이루고 있다고 판단되지만, 토양진단을 통한 양분불균형의 개선이 필요하고, 벼 재배 후 월동 사료작물 재배면적의 확대로 조사료 자급 율을 높이므로, 조농비의 개선이 필요 8) 특히 논 토양의 유박비료 시용량을 가축분뇨로 전량 대체하는 것이 경지 내에서의 물질순환 유지에 필요하다고 판단된다.

• Composites Research
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• v.36 no.6
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• pp.408-415
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• 2023

The formation of bonding configurations such as pyridinic-N, pyrrolic-N, and graphitic-N by nitrogen doping plays a crucial role in imparting distinct physical properties to carbon nanomaterials. In this study, we propose a simple and cost-effective approach to regulate nitrogen dopant configurations in carbon nanotubes (CNTs) by mixing melamine as a dopant source. We employed three distinct mechanical mixing techniques, namely magnetic stirring, bath sonication and tip sonication. The higher the ratio of melamine to CNT, the higher the ratio of Pyrrolic-N, and when mixed through stirring, the highest ratio of Pyridinic-N was shown. The facile method proposed in this study, which can easily form various types of nitrogen dopants in carbon nanotubes, is expected to facilitate the application of nitrogen-doped carbon nanomaterials.