• Title/Summary/Keyword: 구리담지량

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Kinetics of NO Reduction with Copper Containing Bamboo Activated Carbon (구리 촉매 담지 대나무 활성탄의 NO 가스 반응 특성)

  • Bak, Young-Cheol;Choi, Joo-Hong
    • Journal of Korean Society of Environmental Engineers
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    • v.38 no.3
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    • pp.144-149
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    • 2016
  • The metal-impregnated activated carbon was produced from bamboo activated carbon by soaking method of metal nitrate solution. The carbonization and activation of raw material was conducted at $900^{\circ}C$. The specific surface area and pore size distribution of the prepared activated carbons were measured. Also, NO and activated carbon reaction were conducted in a thermogravimetric analyzer in order to use as de-NOx agents of used activated carbon. Carbon-NO reactions were carried out with respect to reaction temperature ($20^{\circ}C{\sim}850^{\circ}C$) and NO gas partial pressure (0.1 kPa~1.8 kPa). As results, the specific volume and surface area of bamboo activated carbon impregnated with copper were decreased with increasing Cu amounts of activated carbon. In NO reaction, the reaction rate of Cu impregnated bamboo activated carbon[BA(Cu)] was promoted to compare with that of bamboo activated carbon[BA]. But the reaction rate of Ag impregnated bamboo activated carbon[BA(Ag)] was retarded. Measured reaction orders of NO concentration and activation energy were 0.63[BA], 0.92[BA(Cu)], and 80.5 kJ/mol[BA], 48.5 kJ/mol[BA(Cu)], 66.4 kJ/mol[BA(Ag)], respectively.

Complete Combustion of Benzene over CuO/CeO2 Catalysts Prepared by Various Methods (다양한 방법으로 제조된 CuO/CeO2 촉매에서의 벤젠의 연소반응)

  • Jung, Won Young;Song, Young In;Hong, Seong-Soo
    • Clean Technology
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    • v.19 no.2
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    • pp.128-133
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    • 2013
  • Catalytic combustion of benzene over $CeO_2$-supported copper oxides has been investigated. The supported copper oxides catalysts were prepared using ball mill method and characterized by XRD, FT-IR, TEM and TPR. In the CuO/$CeO_2$ catalysts prepared using ball mill method, highly dispersed copper oxide species were shown at high loading ratio. The CuO/$CeO_2$ prepared using ball mill method showed the higher activity than those prepared using impregnation method. The catalytic activity increased with an increase in the CuO loading ratio, 10 wt% loaded CuO/$CeO_2$ catalyst giving the highest activity. In addition, the promoting of 10 wt% loaded CuO/$CeO_2$ catalyst with $Fe_2O_3$ and CoO enhanced the dispersion of CuO and then increased the catalytic activity.

Preparation of Electroless Copper Plated Activated Carbon Fiber Catalyst and Reactive Evaluation of NO Removal (무전해 도금법으로 제조된 구리 함유 활성탄소섬유 촉매의 제조와 NO 제거 반응성 평가)

  • Yoon, Hee-Seung;Oh, Jong Hyun;Lee, Hyung Keun;Jeon, Jong-Ki;Ryu, Seung Kon
    • Korean Chemical Engineering Research
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    • v.46 no.5
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    • pp.863-867
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    • 2008
  • Pitch based activated carbon fiber(ACF) was prepared from reformed naphtha cracking bottom oil(NCB oil) by melt spinning. The fibers obtained were stabilized, carbonized, and then steam activated. The ACF was sensitized with Pd-Sn catalytic nuclei via a single-step activation approach. This sensitized ACF was used as precursors for obtaining copper plated ACFs via electroless plating. ACFs uniformly decorated with metal particles were obtained with reduced copper plating in the reaction solution. Effects of the amount of copper on characteristics of ACF/Cu catalysts were investigated through BET surface area, X-ray diffraction, scanning emission microscopy, and ICP. The amount of copper increased with plating time, but the surface area as well as the pore volume decreased. NO conversion increased with reaction temperature. NO conversion decreased with increasing the amount of copper, which is seemed to be due to the reduction of surface area as well as the dispersion of copper.

The Effect of Cu Loading on the Performance of Cu-Ce0.8Zr0.2O2 Catalysts for Single Stage Water Gas Shift Reaction (컴팩트 개질기용 수성가스전이 반응에서 Cu-Ce0.8Zr0.2O2 촉매에 Cu 담지량이 미치는 영향)

  • KIM, HAK-MIN;JEON, KYUNG-WON;NA, HYUN-SUK;JANG, WON-JUN;JEONG, DAE-WOON
    • Journal of Hydrogen and New Energy
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    • v.28 no.4
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    • pp.345-351
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    • 2017
  • Single stage water-gas shift reaction has been carried out at a gas hourly space velocity of $150,494h^{-1}$ over $Cu-Ce_{0.8}Zr_{0.2}O_2$ catalysts prepared by a co-precipitation method. Cu loading was optimized to obtain highly active co-precipitated $Cu-Ce_{0.8}Zr_{0.2}O_2$ catalysts for single stage water-gas shift reaction. 80 wt.% $Cu-Ce_{0.8}Zr_{0.2}O_2$ exhibited the excellent catalytic performance as well as 100% $CO_2$ selectivity (CO conversion = 27% at $240^{\circ}C$ for 50 h). The high activity and stability of 80 wt.% $Cu-Ce_{0.8}Zr_{0.2}O_2$ are correlated to low activation energy and large amount of surface Cu atoms.

Development of Cu-CeO2 Catalysts for Selective Oxidation of CO (일산화탄소의 선택적 산화반응을 위한 Cu-CeO2 촉매의 개발)

  • Jung, C.-R.;Han, J.;Yoon, S.P.;Nam, S.-W.;Lim, T.-H.;Hong, S.-A.;Lee, H.-I.
    • Clean Technology
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    • v.8 no.1
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    • pp.53-59
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    • 2002
  • $Cu-CeO_2$ catalysts were prepared by co-precipitation and liquid phase oxidation (CP-LPO) and the prepared catalysts were examined as selective oxidation of carbon monoxide catalysts for the application of fuel cell vehicles. The prepared $Cu-CeO_2$ catalysts showed high reaction activity, but it was hard to find the correlation between the amount of Cu loaded and the reaction activities. As increase of the amount of Cu loaded, the micro pore structure of the catalyst was changed. It is due to the formation of solid solution between Cu and $CeO_2$. During pretreatment, the catalyst formed the solid-solution of Cu-Ce-O, resulting in the improvement of catalytic activity.

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Decomposition of Low-toxic Propellant by Cu-La-Al/honeycomb Catalysts (Cu-La-Al/honeycomb 촉매를 이용한 저독성 추진제 분해)

  • Kim, Munjeong;Yoo, Dalsan;Lee, Jeongsub;Joen, Jong-Ki
    • Korean Chemical Engineering Research
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    • v.59 no.2
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    • pp.296-303
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    • 2021
  • The objective of this study is to investigate the applicability of a Cu-supported honeycomb catalyst as a catalyst for decomposition of a low toxic liquid propellant based on ammonium dinitramide (ADN). A mixture of copper, lanthanum, and alumina was supported on the honeycomb support by wash coating to prepare a Cu-La-Al/honeycomb catalyst. We elucidated that the effect of metal loading on the physicochemical properties of Cu-La-Al/honeycomb catalyst and catalytic performance in decomposition of the ADN-based liquid propellant. As the number of wash coatings increased, the amount of active metal Cu was increased to 4.1 wt%. The BET surface area of the Cu-La-Al/honeycomb catalyst was in the range of 3.1~4.1 ㎡/g. The micropores were hardly present in Cu-La-Al/honeycomb catalysts, however, the mesopores and macropores were well developed. The Cu (2.7 wt%)-La-Al/honeycomb catalyst exhibited the highest activity in the decomposition of the ADN-based liquid propellant, which is attributed to the largest surface area, the largest pore volume, and the well-developed mesopores and macropores.

Adsorptive Removal of TBM and THT Using Ion-exchanged NaY Zeolites (이온교환된 NaY 제올라이트를 이용한 TBM와 THT의 흡착제거)

  • Jung, Gap-Soon;Lee, Seok-Hee;Cheon, Jae-Kee;Choe, Jae-Wook;Woo, Hee-Chul
    • Clean Technology
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    • v.15 no.1
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    • pp.60-66
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    • 2009
  • Adsorptive removal of tetrahydrothiophene (THT) and tert-butylmercaptan (TBM) that were widely used sulfur odorants in pipeline natural gas was studied using various ion-exchanged NaY zeolites at ambient temperature and atmospheric pressure. In order to improve the adsorption ability, ion exchange was performed on NaY zeolites with alkali metal cations of $Li^+,\;Na^+,\;K^+$ and transition metal cations of $Cu^{2+},\;Ni^{2+},\;Co^{2+},\;Ag^+$. Among the adsorbents tested, Cu-NaY and Ag-NaY showed good adsorption capacities for THT and TBM. These good behaviors of removal of sulfur compound for Cu-NaY and Ag-NaY zeolites probably was influenced by their acidity. The adsorption capacity for THT and TBM on the best adsorbent Cu-NaY-0.5, which was ion exchanged with 0.5 M copper nitrate solution, was 1.85 and 0.78 mmol-S/g at breakthrough, respectively. It was the best sulfur capacity so far in removing organic sulfur compounds from fuel gas by adsorption on zeolites. While the desorption activation energy of TBM on the Cu-NaY-0.5 was higher than NaY zeolite, the difference of THT desorption activation energy between two zeolites was comparatively small.

Study on the production of porous CuO/MnO2 using the mix proportioning method and their properties (반응몰비에 따른 다공성 CuO/MnO2의 제조 및 특성 연구)

  • Kim, W.G.;Woo, D.S.;Cho, N.J.;Kim, Y.O.;Lee, H.S.
    • Analytical Science and Technology
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    • v.28 no.3
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    • pp.182-186
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    • 2015
  • In this study, the porous CuO/MnO2 catalyst was prepared through the co-precipitation process from an aqueous solution of potassium permanganate (KMnO4), manganese(II) acetate (Mn(CH3COO)2·4H2O) and copper(II) acetate (Cu(CH3COO)2·H2O). The phase change in MnO2 was analyzed according to the reaction molar ratio of KMnO4 to Mn(CH3COO)2. The reaction mole ratio of KMnO4 to Mn(CH3COO)2·4H2O was varied at 0.3:1, 0.6:1, and 1:1. The aqueous solution of Cu(CH3COO)2 was injected into a mixed solution of KMnO4 and Mn(CH3COO)2 to 10~75 wt% relative to MnO2. The Cu ion co-precipitates as CuO with MnO2 in a highly dispersed state on MnO2. The physicochemical property of the prepared CuO/MnO2 was analyzed by using the TGA, DSC, XRD, SEM, and BET. The different phase types of MnO2 were prepared according to the reaction mole ratio of KMnO4 to Mn(CH3COO)2·4H2O. The results confirmed that the porous CuO/MnO2 catalyst with γ-phase MnO2 was produced in the reaction mole ratio of KMnO4 to Mn(CH3COO)2 as 0.6:1 at room temperature.