• Title/Summary/Keyword: Removal of $NO_X$

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A Study on Removal of NOx in Diesel Engine using Reductive Catalyst (환원촉매를 이용한 디젤엔진 배기가스 중 NOx 저감에 관한 연구)

  • Huang, H.Z.;Hwang, J.W.;Jung, J.Y.;Han, J.H.;Demidiouk, V.I.;Chae, J.O.
    • Journal of Korean Society of Environmental Engineers
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    • v.22 no.12
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    • pp.2255-2261
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    • 2000
  • To eliminate $NO_x$ in diesel emission. selective catalyst reduction (SCR) was used in real diesel engine. Among the SCR methods, metal oxide and perovskite catalysts were introduced in this paper. The removal efficiencies with various major, promoter catalysts on ${\gamma}-Al_2O_3$ at different reaction temperature were investigated, and $LaCuMnO_x$ catalyst which has high removal efficiency at the temperature of real diesel exhaust gas was selected. $NO_x$ reduction was carried out over these catalysts in the flow-through type reactor using by-pass ($SV=3,300h^{-1}$). Under the given condition to this study, perovskite catalysts showed considerably high removal efficiency and $LaCuMnO_x$ was the best one among these catalysts in the temperature range of $150{\sim}450^{\circ}C$.

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Method for Rapid Determination and Removal of Nitrogen Oxides in Flue Gas (II). Removal of Nitrogen Oxides Using Ammonia (배기가스중 질소산화물의 신속측정법과 그 제거에 관한 연구 (제 2 보). 암모니아에 의한 $NO_x$의제거)

  • Yong Keun Lee;Kee Jung Paeng;Kyu Ja Hwang
    • Journal of the Korean Chemical Society
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    • v.30 no.2
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    • pp.207-215
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    • 1986
  • A new method was proposed to improve removal of nitrogen oxides $(NO_x)$ in exhaust gas by the reduction method using ammonia. At the relative humidity of 60%, 50 ppm of $NO_x$ was decomposed at the rate of 1% per hour in the reaction chamber. On the other hand, by adding $NH_3$ which was 5 times more concentrated than NOx, the decomposition rate increased to 6% per hour for 50 ppm $NO_x$ and 10% per hour for 20ppm $NO_x$. Within the actual exhausted gases, the decomposition rate of $NO_x$ reached the maximum 15% per hour because of coexisted reducing gases, such as hydrocarbon and carbon monoxide, and excess humidity containing trace metal ions. In the presence of acidic $SO_2$ gas, the decomposition rate of $NO_x$ decreased. The decomposition of $NO_x$ seems to be caused by the mist which is added to the system, and $NH_3$ in the mist which reduces $NO_x$.

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The Studies of Photocatalyst Development and the Optimum Operation Conditions for the Removal of Ammonia in a Mixed Reactor of Liquid-vapor Phase (기-액 복합 광반응기에서의 악취성 암모니아 제거를 위한 촉매개발과 반응시스템의 최적조건 색출 연구)

  • Kim, Hae-Ri;Jeon, Min-Kyu;Kim, Joon-Woo;Joo, Gwang-Tae;Choung, Suk-Jin
    • Journal of Korean Society for Atmospheric Environment
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    • v.24 no.5
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    • pp.512-522
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    • 2008
  • Ammonia is a major compound of odor in livestock house. To enhance the performance of ammonia oxidation (decomposition). the gas-liquid, two phase photocatalytic oxidation system was designed and prepared in this study. Commercial P-25 as $TiO_2$ catalyst was used for ammonia decomposition. V/P-25 catalyst prepared by sol gel method was also used for the removal of by-producted $NO_x$ in $NH_3$ oxidation reaction. When $TiO_2$ was used as a photocatalyst, the conversion to $N_2$ in ammonia decomposition reached above 90% until 200hr (The air flow rate of 4L/min with the ammonia concentration up to 25ppm.). However, considerable amounts of NO and $NO_2$ were formed as a result of $NH_3$ oxidation (as a by-product). Therefore, we added Vanadia impregnated $TiO_2$(P-25) catalyst for the removal of $NO_x$ at the end of reaction trail. The results of a pilot-scale operation were successful to achieve the simultaneous removal of $NH_3\;and\;NO_x$ about 81 and 87%, respectively.

Characteristics of Denitrification from Municipal Wastewater Treatment using a Combined Fixed Film Reactor (CFFR) Process (복합생물막 반응기를 이용한 하수처리시 탈질화 특성)

  • 이종현;남해욱;김영규;박태주
    • Journal of Environmental Science International
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    • v.8 no.1
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    • pp.107-113
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    • 1999
  • A new biological nutrient removal system combining $A^2/O$ process with fixed film was developed in this work and the characteristics of denitrification were especially investigated in the combined fixed film reactor(CFFR). Media was added in the anaerobic, anoxic and aerobic reactors, respectively. Tests were made to establish the effluent level of $NO_x-N$, COD, DO and nitrite effects on $NO_x-N$ removal in the CFFR by decreasing hydraulic retention time (HRT) from 10.0 to 3.5 hours and by increasing internal recycle ratio form 0% to 200%. The influent was synthesized to levels similar to the average influent of municipal wastewater treatment plants in Korea. SARAN media with a porosity of 96.3% was packed 40% / 130% / 25% based on its reactor volume, respectively. It was found that COD rarely limited dentrification in the anoxic reactor because of high $C/NO_x/-N$ ratio in the anoxic reactor, while DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent inhibited denitrification in the anoxic reactor. It was proved that the critical points of DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent were 0.15mg/L and 10%, respectively. As the internal recycle ratio increased, DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent increased. Especially, at the condition of internal recycle ratio, 200%, DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent exceeded the critical points of 0.15mg/L and 10%, respectively. Then, denitrification efficiency considerably decreased. Consequently, it was represented that the control of DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent can assure effective denitrification.

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A Study on DeNOx Characteristics of Corona/Catalyst Hybrid System (코로나/촉매 일체형 시스템의 탈질특성에 관한 연구)

  • Chang, Hong-Ki;Choi, Chang-Sik;Shin, Jung-Uk;Ji, Young-Yeon;Hong, Min-Sun;Chung, Yoon-Jin
    • Journal of Korean Society for Atmospheric Environment
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    • v.23 no.6
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    • pp.699-707
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    • 2007
  • This study was carried out to investigate the reaction characteristics of corona/catalyst hybrid $DeNO_x$ process. The experiments were performed by using the multi-staged pin-to-hole type corona reactor which is enable to control the pin-to-hole gap and to insert the catalyst. Also, used for this study, were catalysts which commercially used Pt, Pd and $TiO_2$, and oxygen and hydrocarbon ($C_2H_4$) as reagents. In the syn-gas test, at high temperatures in the range of $100{\sim}200^{\circ}C$, the corona-only $DeNO_x$ process did not reduce the $NO_x$ concentration effectively. However in the presence of ethylene and oxygen as reagents, the $NO_x$ removal efficiency was better at these high temperatures than corona-only $DeNO_x$ process. In addition, coronal catalyst hybrid process with $TiO_2$ showed more efficiency of $NO_x$ removal than Pt and Pd catalyst, because the $TiO_2$ catalyst was more active than Pt and Pd catalyst to converse the $NO_2$ to $HNO_3$. Furthermore, at the condition of real diesel exhaust gas, the $DeNO_x$ efficiency of corona/catalyst hybrid process was not good at higher reaction temperature and plasma density.

The Plasma Chemistry and Particle Growth in the Low Temperature Plasma Reactor for removal of NOx (NOx 제거용 저온 플라즈마 반응기에서의 플라즈마 화학 및 입자 성장)

  • Kim, Dong-Joo;Kim, Kyo-Seon
    • Journal of Industrial Technology
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    • v.19
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    • pp.331-341
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    • 1999
  • We analyzed theoretically the removal efficiency and the particle growth inside the pulse corona discharge reactor to remove $NO_x$ and investigated the effects of process variables such as the NO and $NH_3$ input concentrations. Most of NO is converted into $NO_2$ and $HNO_3$ and the $HNO_3$ reacts with $NH_3$ to form the $NH_4NO_3$ particles. About 6.4% of NO is converted into $HNO_2$ which form the $NH_4NO_2$ particles by reaction with $NH_3$. Some of $NO_2$ follows the reaction pathway to form $NO_3$ and $N_2O_5$. The amount of particles formed inside the reactor is basically determined by the input $NH_3$ concentration. The ratio of NO to $NH_3$ affects the reactor length for particle formation significantly. The higher the input concentrations of NO and $NH_3$ are, the faster the particles grow.

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Simultaneous Removal of $NO_x$ and $SO_2$ through the Combination of Sodium Chlorite Powder and Carbon-based Catalyst at Low Temperature ($NaClO_2(s)$와 탄소 분산형 촉매를 이용한 저온에서의 $NO_x$$SO_2$ 동시 제거)

  • Byun, Young-Chul;Lee, Ki-Man;Koh, Dong-Jun;Shin, Dong-Nam
    • Journal of Korean Society of Environmental Engineers
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    • v.33 no.1
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    • pp.39-46
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    • 2011
  • NO oxidation is an important prerequisite step to assist the selective catalytic reduction (SCR) at low temperatures ($<200^{\circ}C$). Therefore, we conducted the lab- and bench-scales experiments appling the sodium chlorite powder ($NaClO_2(s)$) for the oxidation of NO to $NO_2$ and the carbon-based catalyst for the reduction of $NO_x$ and $SO_2$; the lab- and bench-scales experiments were conducted in laboratory and iron-ore sintering plant, respectively. In the lab-scale experiment, known concentrations of $NO_x$ (200 ppm), $SO_2$ (75 ppm), $H_2O$ (10%) and $NH_3$ (400 ppm) in 2.6 L/min were introduced into a packed-bed reactor containing $NaClO_2(s)$, then gases produced by the reaction with $NaClO_2(s)$ were fed into the carbon-based catalyst (space velocity = $2,000hr^{-1}$) at $130^{\circ}C$. In the bench-scale experiment, flue gases of $50Nm^3/hr$ containing 120 ppm NO and 150 ppm $SO_2$ were taken out from the duct of iron-ore sintering plant, then introduced into the flow reactor; $NaClO_2(s)$ were injected into the flow reactor using a screw feeder. Gases produced by the reaction with $NaClO_2(s)$ were introduced into the carbon-based catalyst (space velocity = $1,000hr^{-1}$). Results have shown that, in both lab- and bench-scales experiments, NO was oxidized to $NO_2$ by $NaClO_2(s)$. In addition, above 90% of $NO_x$ and $SO_2$ removal were obtained at the carbon-based catalyst. These results lead us to suggest that the combination of $NaClO_2(s)$ with the carbon-based catalyst has the potential to achieve the simultaneous removal of $NO_x$ and $SO_2$ at low temperature ($<200^{\circ}C$).

Nitrogen oxide (NOX) and Sulfur Oxide (SOX) Removal Capacities of Textile FabricsCoated with Nano-pore Materials (나노 공극소재로 코팅된 모헤어의 질소산화물(NOX) 및 황산화물(SOX) 제거 성능평가)

  • Lee, Jae-Uk;Yang, Keun-Hyeok;Mun, Ju-Hyun
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2020.11a
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    • pp.157-158
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    • 2020
  • The present study examined the effectiveness of textile fabrics coated with nano-pore materials on removing the nitrogen oxide (NOX) and sulfur oxide (SOX) in the atmospheric environment. The tested approach is favorable for absorbing NOX and SOX, even under the washing condition.

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