• Title/Summary/Keyword: NO_X$

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Fabrication of an Electrochemical Cell using a Lanthanum Stannate Pyrochlore Catalyst and its Characterization of NOx Gas Decomposition (Lanthanum Stannate Pyrochlore 촉매를 이용한 전기화학 촉매 셀의 제조 및 NOx 분해 특성 분석)

  • Park, Saro-Han;Moon, Joo-Ho
    • Journal of the Korean Ceramic Society
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    • v.39 no.10
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    • pp.988-993
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    • 2002
  • Electrochemical cells for decomposing $NO_x$ were fabricated using a hydrothermally synthesized lanthanum stannate pyrochlore catalyst. Thick film of the catalyst on the YSZ electrolyte disk was produced by screen-printing a paste consisted of $La_2Sn_2O_7$ and YSZ powders. Direct current was applied to the electrochemical cell to promote an electrochemical catalytic decomposition of $NO_x$. $NO_x$ decomposition behavior of the rectant gas mixture ($NO_x$ 0.1%, $O_2$ 2%) was investigated at 700${\circ}C$ under atmosphere pressure using on-line gas chromatography and $NO_x$ analyzer. It was observed that microstructure of the catalyst layer significantly influences the electrocatalystic decomposition of $NO_x$.

Low NOx Combustors in a Industrial Gas Turbine (산업용 가스터빈의 저NOx 연소기)

  • 신동신
    • Journal of the KSME
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    • v.34 no.12
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    • pp.929-939
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    • 1994
  • 최근 환경문제와 관련하여 정제된 석유 연료가 아닌 천연가스와 같은 연료의 사용이 증가하면서 산업용 가스터빈의 연소기술에 대한 관심이 집중되고 있다. 가스터빈 연소로 생성되는, 환경을 위협하는 오염물은 연기, 수증기, 일산화탄소(CO), 미연 탄화수소, $NO_{x}$, $SO_{x}$ 등이 있다. 수증기 및 일산화탄소는 지구 온실화에 영향을 미치고 있으나 그다지 심각한 정도는 아 니며, $SO_{x}$는 독성이 있으나 연료 정제시 제거되어질 수 있다. $NO_{x}$는 지구의 오 존층을 파괴하여 생태계를 위협하기 때문에 오염 배출물중 가장 심각하게 고려되어지고 있다. 미국에서는 법으로 산업용 가스터빈의 $NO_{x}$의 양을 규제하고 있는데 15% 산소배출농도에 대하여 1984년에 75ppm에서 1993년에 30ppm으로 낮추어 규제하고 있다. 일본도 미국과 비슷한 수준으로 규제하고 있으며, 따라서 최근의 가스터빈 연소기술은 저 $NO_{x}$연소기에 대한 것으로 저$NO_{x}$연소에 관한 개론 및 가스터빈 연소기의 저$NO_{x}$화 방법, 그리고 미 국과 일본의 최근의 저$NO_{x}$연소기 개발동향에 대하여 다루고자 한다.

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NOx Reduction with Secondary Air and Fuel in a Catalytic Combustor (촉매연소기에서 2단 공급공기와 연료가 NOx 저감에 미치는 연구)

  • 정진도;이보영
    • Journal of Korean Society for Atmospheric Environment
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    • v.19 no.5
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    • pp.541-549
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    • 2003
  • A basic experimental study was conducted in order to find the optimum combustion control technology to decrease the thermal NO$_{x}$, by applying the catalytic combustion method with natural gas. NO$_{x}$ emission increased with increasing space velocity due to temperature rising in the furnace. In order to overcome the low resistance to high temperature, secondary air was supplied to the CST combustor. The following secondary fuel formed combustible mixture in part, which resulted in steep increase of the exiting temperature of the 2nd catalyst bed. It led to the more generator of NO$_{x}$, 30∼60% of the 1 st catalyst bed. It might be due to the potential increase of thermal NO$_{x}$.

Comparison of Fuel-NOx Formation Characteristics in Conventional Air and Oxyfuel Combustion Conditions (일반 공기 및 순산소 연소 조건에서 Fuel-NOx 생성 특성의 비교)

  • Woo, Mino;Park, Kweon Ha;Choi, Byung Chul
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.37 no.5
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    • pp.481-488
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    • 2013
  • Nitric oxide ($NO_x$) formation characteristics in non-premixed diffusion flames of methane fuels have been investigated experimentally and numerically by adding 10% ammonia to the fuel stream, according to the variation of the oxygen ratio in the oxidizer with oxygen/carbon dioxide and oxygen/nitrogen mixtures. In an experiment of coflow jet flames, in the case of an oxidizer with oxygen/carbon dioxide, the $NO_x$ emission increased slightly as the oxygen ratio increased. On the other hand, in case of an oxygen/nitrogen oxidizer, the $NO_x$ emission was the maximum at an oxygen ratio of 0.7, and it exhibited non-monotonic behavior according to the oxygen ratio. Consequently, the $NO_x$ emission in the condition of oxyfuel combustion was overestimated as compared to that in the condition of conventional air combustion. To elucidate the characteristics of $NO_x$ formation for various oxidizer compositions, 1D and 2D numerical simulations have been conducted by adopting one kinetic mechanism. The result of 2D simulation for an oxidizer with oxygen/nitrogen well predicted the trend of experimentally measured $NO_x$ emissions.

Experimental Study on the NO2/NOX Ratio from Exhaust of Diesel Vehicles by Chassis Dynamometer (경유자동차에서 배출되는 NO2/NOX 비율 특성)

  • KIM, SUNMOON;KIM, JOUNGHWA;JUNG, SUNGWOON;SUNG, KIJAE;KIM, JEONGSOO;KIM, INGU
    • Journal of Hydrogen and New Energy
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    • v.28 no.2
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    • pp.220-224
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    • 2017
  • Nitrogen dioxide ($NO_2$) is an important urban pollutant in Korea. Expecially, diesel vehicles are responsible for the most traffic rated nitrogen oxide ($NO_X$) emission, including nitric oxide (NO) and nitrogen dioxide ($NO_2$). Though nitrogen oxide ($NO_X$) emission from vehicle was applied a strict enforcement of emission standard, the specific $NO_2$ fraction in $NO_X$ ($NO_2/NO_X$) from various types of diesel vehicles was not understood. In order to investigate the fraction of $NO_2/NO_X$, the vehicle emission study was carried out at the facility of Transport Pollution Research Center (TPRC), National Institute of Environmental Research (NIER), Korea. Three different types of diesel vehicles(VAN, SUV, passenger) were tested on the NIER driving mode. The result of $NO_2/NO_X$ ratio was over 0.1 for all test vehicles and the highest $NO_2$ emission was observed at the van vehicle. The observation was showed that the emission trend of $NO_2/NO_X$ for passenger and SUV vehicles were inversely proportional. Also, as the emission standard has been strengthen, the emission rate of $NO_2$ has been decrease.

Modeling and Performance Analysis of SCR $DeNO_X$ Catalyst for Reducing $NO_X$ Emissions in Diesel Engine (디젤엔진의 $NO_X$ 저감을 위한 SCR $DeNO_X$ 촉매의 모델링 및 성능해석)

  • Kim, Young-Deuk;Kim, Woo-Seung;Lee, Chun-Hwan
    • Transactions of the Korean Society of Automotive Engineers
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    • v.17 no.1
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    • pp.137-145
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    • 2009
  • The steady-state kinetics of the selective catalytic reduction (SCR) of $NO_X$ with $NH_3$ has been investigated over a commercial ${V_2}{O_5}/TiO_2$ catalyst. In order to account for the influence of transport effects the kinetics are coupled with a fully transient two-phase 1D+1D monolith channel model. The Langmuir-Hinshelwood (L-H) mechanism is adopted to describe the steady-state kinetic behavior of the ${V_2}{O_5}/TiO_2$ catalyst. The reaction rate expressions are based on previously reported papers and are modified to fit the experimental data. The steady-state chemical reaction scheme used in the present mathematical model has been validated extensively with experimental data of selective $NO_X$ reduction efficiency for a wide range of inlet conditions such as space velocity, oxygen concentrations, water concentration, and $NO_2/NO$ ratio. The parametric investigations are performed to examine how the $NH_3$ slip from a SCR $DeNO_X$ catalyst and the conversion of $NO_X$ are affected by the reaction temperature, $NH_3/NO_X$ feed ratio, and space velocity for feed gas compositions with $NO_2/NO_X$ ratios of 0 and 0.5.

Experimental Evaluation of Developed Ultra-low NOx Coal Burner Using Gas in a Bench-scale Single Burner Furnace (Bench-scale 연소로에서 가스 혼소를 통한 초 저 NOx 석탄 버너 개발 연구)

  • Chae, Taeyoung;Lee, Jaewook;Lee, Youngjae;Yang, Won
    • Clean Technology
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    • v.28 no.2
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    • pp.117-122
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    • 2022
  • This study developed and tested an ultra-low NOx burner in an 80 kW combustion furnace. The experiment was conducted in an 80 kW single burner combustion furnace with changing the swirl numbers, total equivalence ratios, and primary/secondary oxidizer ratios. In this study, liquefied natural gas (LNG) was used as an auxiliary fuel to significantly reduce NOx production. In a thermal power plant, the amount of NOx generated during coal combustion is about 300 ppm. However, using the burner tested in this study, it was possible to reduce the amount of NOx generated via LNG co-firing to 40 ppm. If the input amount of the primary oxidizer is enough for the gas to be completely combusted and the gas and coal are added simultaneously, the combusted gas forms a high-temperature region at the burner outlet and volatilizes the coal. As a result, the N contained in the devolatilized coal is discharged. Therefore, when the coal is subsequently burned, the amount of NOx produced decreases because there is almost no N remaining in the coal. If a thermal power plant burner is developed based on the results of this study, it is expected that the NOx generation will be significantly lower in the early stage of combustion.

Unified Modeling and Performance Prediction of Diesel $NO_x$ and PM Reduction by DOC-DPF-SCR System (DOC-DPF-SCR 시스템에 의한 디젤 배기 내 $NO_x$, 입자상 물질 저감 과정의 일관 모델링 및 성능 예측)

  • Jung, Seung-Chai;Yoon, Woong-Sup
    • Transactions of the Korean Society of Automotive Engineers
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    • v.16 no.4
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    • pp.110-119
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    • 2008
  • Computer methods with simplified mathematical models in conjunction with empirical model parameters can be efficiently practiced into an optimization of a diesel aftertreatment system. Components of prime interests are diesel particulate filter, diesel oxidation catalyst and de-$NO_x$ catalytic converter. de-$NO_x$, de-PM, and de-HC processes in each part are individually modeled, formulated and then combined into an integrated analysis procedure for a unified simulation of the diesel emission aftertreatment. The model is empirically tuned and validated with comprehensive engine and laboratory data. The effects of emission species and space velocity on the $NO_x$ and soot reductions are parametrically investigated. A lowered $NO_2/NO_x$ ratio due to PM oxidation in DPF contributes to promote the $NO_x$ reduction by SCR at intermediate gas temperatures. $NO_x$ reduction is inert to the PM oxidation at high temperatures. Rate of PM trapping strongly depends on temperature and $NO_x$ concentration.

The removing characteristic of harmful exhaust from a motorcycle using non-thermal plasma (플라즈마를 이용한 이륜자동차 배출가스저감 특성)

  • Kim, Young-Ju;Park, Hong-Jae;Jung, Jang-Gun;Lee, Jae-Dong;Park, Jae-Yoon;Koh, Hee-Seog
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2003.07b
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    • pp.1127-1130
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    • 2003
  • In the last several centuries, humankind have been experienced the material abundance with a development of technical civilization and being industrialized quickly. During the process of this, environmental pollutant have occurred naturally so that humankind have more interests for environment pollutant. Air pollution caused by exhaust from a car is very harmful for human. Most of exhaust from a gasoline engine are $CO_x(CO+CO_2),\;NO_x(NO+NO_2)$, and THC(Total Hydrocarbon). The method to remove these kinds of noxious gases are so many thing such as the three catalysts, $NO_x$ catalysts, Filter and so on. However, although air pollution caused by exhaust from motorcycle have also occurred very much, there is no regulation for motorcycle. In this paper, we studied to remove $CO_x(CO+CO_2),\;NO_x(NO+NO_2)$, THC exhaust from a motorcycle using non-thermal plasma In the result, $NO_x(NO+NO_2)$ concentration was decreased approximately 70% and THC(Total Hydrocarbon) was removed about 40%.

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Photochemical Conversion of NOX in Atmosphere by Photocatalyst Coated Mortar (광촉매 코팅한 모르타르를 이용한 대기 중 NOX의 광화학적 변환)

  • Hyeon Jin;Kyong Ku Yun;Hajin Choi;Kyo-Seon Kim
    • Korean Chemical Engineering Research
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    • v.61 no.2
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    • pp.240-246
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    • 2023
  • This study was performed to convert NOx in atmosphere by photochemical reaction utilizing the eco-friendly solar energy. The mortar specimen coated with photocatalyst was fabricated and the photochemical conversion efficiency of NOx was analyzed. The photocatalyst coated concrete was fabricated by first adding TiO2 photocatalyst on the bottom of mold first and next adding cement mortar and, then, curing the concrete mortar. The grease was sprayed on the bottom of mold in advance so that the concrete can be demolded easily after curing. The conversion efficiencies of NOx by photochemical reactions were investigated systematically by changing the process variable conditions of amount of TiO2 coating, UV-A light intensity, total gas flow rate, relative humidity and initial NOx concentration. It was confirmed that the photocatalyst coated concrete fabricated in this study could convert NOx successfully for various process conditions in atmosphere. In future, we believe this research result can be utilized as basic data to design the infrastructure of building, tunnel and road for controlling efficiently the air pollutants such as NOx, SOx, and VOCs.