• Title/Summary/Keyword: Nitrogen oxides (NOx)

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Effect of NH3 Uniformity Index on SCR System According to Urea Spray Characteristics (요소수 분무특성이 SCR시스템 내 분무균일도에 미치는 영향)

  • Kim, Se Hun;Ko, Jin Seok;Ko, Jae Yu;Cho, Young Jun;Lee, Dong Ryu
    • Journal of ILASS-Korea
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    • v.24 no.4
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    • pp.178-184
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    • 2019
  • Diesel engines have the advantages of higher thermal efficiency and lower CO2 emissions than gasoline engines, but have the disadvantages that particulate matter (PM) and nitrogen oxides (NOx) emissions are greater than those of gasoline engines. In particular, nitrogen oxides (NOx) emitted from diesel engines generates secondary ultrafine dust (PM2.5) through photochemical reactions in the atmosphere, which is fatal to humans. In order to reduce nitrogen oxides (NOx), pre-treatment systems such as EGR, post-treatment systems such as LNT and Urea SCR have been actively studied. The Urea SCR consists of an injection device injecting urea agent and a catalytic device for reducing nitrogen oxides (NOx). The nitrogen oxide (NOx) reduction performance varies greatly depending on the urea uniformity in the exhaust pipe. In this study, spray characteristics according to the spray hole structure were confirmed, and the influence of spray uniformity on spray characteristics was studied through engine evaluation.

An Experimental Study on NOx Reduction in Exhaust Gas from Agricultural Diesel Engine with Plasma and Catalyst (플라즈마와 촉매를 이용한 농용 디젤기관 배기가스 중의 NOx 저감에 관한 실험적 연구)

  • 이승규;조기현;황의현
    • Journal of Biosystems Engineering
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    • v.24 no.6
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    • pp.465-472
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    • 1999
  • To remove nitrogen oxides(NOx) in exhaust gas of diesel engine, three-way catalytic process with plasma discharger has great possibilities. Characteristics of NOx removal depends on NO conversion to NO$_2$and/or HNO$_3$due to high activation energies for NO oxidation and reduction. NOx removal efficiency by using three-way catalytic with plasma discharger indicated about 50% at 40watt power consumption condition.

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An Experimental Stduy on NOx Reduction in Exhaust Gas from Diesel Engine with Plasma (플라즈마를 이용한 디젤엔진 배기가스 중의 NOx 저감에 관한 실험적 연구)

  • 조기현;황의현
    • Transactions of the Korean Society of Automotive Engineers
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    • v.7 no.8
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    • pp.83-90
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    • 1999
  • To remove nitrogen oxides(NOx) in exhaust gas of diesel engine, three-way catalytic process with plasma discharger has great possbilities. Characteristics of NOx removal depends on NO conversion to $NO_2$ and/or $HNO_3$ due to high activation energies for NO oxidationand reduction. NOx removal efficiency by using three-way catalytic with plasma dischager indicated about 50% at 40 watt power consumption condition.

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An Experimental Study on Effect of Plasma for Exhaust Emissions in Small High-Speed Diesel Engine (소형 고속 디젤엔진의 배기 배출물에 미치는 플르즈마의 영향에 관한 실험적 연구)

  • 백태실
    • Journal of Advanced Marine Engineering and Technology
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    • v.23 no.6
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    • pp.755-760
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    • 1999
  • To remove nitrogen oxides(NOx) in exhaust gas of diesel engine three-way catalytic process with plasma discharger has great possibilities. Characteristics of NOx removal depends on NO conver-sion to $NO_2$ and /or $HNO_3$ due to high activation energies for NO oxidation and reduction, NOx removal efficiency by using three-way catalytic with plasma discharger indicated about 50% at 40watt power consumption condition.

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Treatment of Nitrogen Oxides in Ambient Air using a Ion-Selective Electrode (대기중 질산화물의 이온 선택성 전극에 의한 처리)

  • 안형환;우인성;강안수;이영순;김윤선
    • Journal of the Korean Society of Safety
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    • v.5 no.2
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    • pp.40-49
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    • 1990
  • For the determination of polluant NOx in ambient air, nitrate ion-selective electrode(ISE) was made. To comparison of NOx in each method, the nitrate-ISE, NEBA, Orion electrode were used to determinee NOx in ambient air. In this work, the concentration of NOx in ambient air was average 0.06ppm. The results were good agreement with those obtained by each method within a relative error of 3%, Absorbing efficiency of nitrogen oxides in ambient air was good for Alkali solution. The determination of nitrogen oxides in ambient air using the Aliquat 336N-PVC membrane electrode was one of the useful method. The best characteristics of the Aliquat 336N-PVC me,mbrane electrode were obtained with the ion-exchanger concentration level of 6.5-9.1 percent by weight. The optimal membrane composition, was 9.09wt.% of ion-exchanger, 30.95wt.% of PVC, 60.6wt.% of plasticizer (DBP), and 0.5mm of thickness. Under the above condition, the electrode approached the Nernstian slope most closely, and the linear response ranges produced the best results.

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A Study on the Formation and Reduction of NOx in 5TPD SRF Boiler (5톤/일 규모 SRF 전용 연소보일러에서의 질소산화물의 생성과 저감에 대한 연구)

  • Yoon, Young-Sik;Park, Dong-Kyu;Gu, Jae-Hoi;Park, Yeong-Su;Seo, Yong-Chil
    • Journal of Korea Society of Waste Management
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    • v.35 no.7
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    • pp.647-652
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    • 2018
  • The emission of nitrogen oxides has a great environmental impact. It leads to Los Angeles type smog, and it recently has attracted attention as a source of ultrafine dust. The main sources of nitrogen oxides are internal combustion engines and industrial boilers. These emission sources are processes that are essential for human industrial activities, so the regulation of original use is impossible. Therefore, special control methods should be applied to reduce NOx emissions into the atmosphere. In this study, we investigated how the supply of ER and urea influences the removal of nitrogen oxides from SRF combustion boilers. Experimental results show that the removal efficiency of nitrogen oxides can be up to 80% under the conditions of ER 2.0 and a urea feed of 0.5 LPM.

Computational Analysis of Nitrogen Oxides Reduction in Exhaust Gas from Livestock Manure Solid Fuel Using Urea-based Selective Non-catalytic Reduction (우레아 기반 SNCR 적용에 따른 가축분뇨 고체연료 배기가스 NOx 저감에 대한 전산해석)

  • Donghwan Shin;Hyeongwon Lee;Junghwan Kim;Jongyoung Jo
    • New & Renewable Energy
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    • v.20 no.3
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    • pp.1-11
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    • 2024
  • Livestock manure solid fuel has been studied as a promising domestic energy resource for reducing greenhouse gas emissions in agricultural fields. To successfully commercialize this technology, the environmental facilities require optimization in accordance with domestic environmental standards. In the present study, a computational analysis model of a livestock manure solid fuel boiler system was developed using Aspen Plus® to investigate nitrogen oxides (NOx) emissions and NOx conversion efficiency using urea-based selective non-catalytic reduction (SNCR). All data were compared across different livestock species and simulated at various operating temperatures. The simulation showed that NOx emissions were the highest from chicken manure and the lowest from swine manure. However, when converted to an oxygen concentration of 12%, NOx emissions were the highest from cattle manure. Dominant factors influencing NOx emissions through a range of temperatures were analyzed, and the optimal operating temperature range (875-950℃) was derived.

Biological Removal of Nitrogen Oxides from Combustion Flue Gases (연소배가스 중 질소산화물(NOx) 제거를 위한 생물학적 기술)

  • Lee, Ki-Say
    • Applied Chemistry for Engineering
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    • v.21 no.3
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    • pp.243-251
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    • 2010
  • Nitrogen oxides (NOx) in combustion flue gas are currently mitigated by chemical processes such as catalytic reduction, absorption and adsorption. However, development of environmentally sustainable biological processes is necessary in the near future. In this paper, the up-to-dated R&D trend of biological methodologies regarding NOx removal was reviewed, and their advantages and disadvantages were discussed. The principles and applications of bacterial system including nitrification and denitrification and photosynthetic microalgae system were compared. In order to enhance biological treatment rate and performance, the insoluble nitric oxide (NO) should be first absorbed using a proper solubilization agent, and then microbial degradation or fixation is to be followed. The use of microalgal system has a good prospect because it can fix $CO_2$ and NOx simultaneously and requires no additional carbon for energy source.

Atmospheric Photochemistry in Low-and High-NOx Regimes

  • Kim, Do-Yong;Soda, Satoshi;Kendo, Akira;Oh, Jai-Ho
    • Journal of Environmental Science International
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    • v.16 no.1
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    • pp.1-8
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    • 2007
  • Atmospheric photochemistry of $O_3-NOx-RH$ were considered theoretically, to clarify the reasons for the different trends of between the formation of photochemical oxidants (Ox) and its primary pollutants for the Low-and High-NOx regimes. Equations of OH, $HO_2$, and production of ozone ($O_3$) as a function of nitrogen oxides (NOx) and reactive hydrocarbons (RH) were represented in this study. For the Low-NOx regime, $HO_2$ radical is proportional to RH but independent of NOx. OH radical is proportional to NOx but inversely-proportional to RH. $O_3$ production is proportional to NOx but has a weak dependence on RH. For the High-NOx regime, OH and $HO_2$ radicals concentrations and $O_3$ production are proportional to RH but inversely-proportional to NOx. In addition, the Osaka Bay and surrounding areas of Japan were evaluated with the mass balance of odd-hydrogen radicals (Odd-H) using CBM-IV photochemical mechanism, in order to distinguish the Low- and High-NOx regimes. The Harima area (emission ratio, RH/NOx = 6.1) was classified to the Low-NOx regime. The Hanshin area (RH/NOx = 3.5) and Osaka area (RH/NOx = 4.3) were classified to the High-NOx regime.

Reduction of Nitrogen Oxides with Diesel Oil In Pilot Scale SCR(Selective Catalytic Reduction) Process (파일럿규모의 선택적촉매환원장치에서 디젤유를 이용한 질소산화물 제거)

  • Lee, In-Young;Yoo, Kyong-Ok
    • Journal of Korean Society of Environmental Engineers
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    • v.22 no.11
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    • pp.1977-1983
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    • 2000
  • SCR(selective catalytic reduction) pilot plant for reduction of the nitrogen oxides using diesel oil as a reductant was installed at the NG(natural gas) fired combined cycle and the activity of Pt(0.3%)/Zeolite catalyst was studied in real flue gas condition according to the amount of reductant. reaction temperature and space velocity. NOx conversion gradually increased with increasing the diesel oil concentration up to C/N ratio 5.5(C/N ratio: the ratio of the number of carbon atom to the number of NOx molecules included in the flue gas). Increasing the reaction temperature. NOx conversion increased and reached a maximum conversion of 50% at $190^{\circ}C$. NOx conversion did not changed with increasing the space velocity up to 18,500/hr and then gradually decreased. These results reveal the potential for diesel oil as a reductant for de-NOx SCR process.

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