• Title/Summary/Keyword: $Rh/CeO_2-ZrO_2$

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Hydrogen Storage Characteristics Using Redox of $M/Fe_2O_3$ (M = Rh, Ce and Zr) Mixed Oxides ($M/Fe_2O_3$ (M = Rh, Ce 및 Zr) 혼합 산화물의 산화-환원을 이용한 수소 저장 특성)

  • Ryu, Jae-Chun;Lee, Dong-Hee;Kim, Young-Ho;Yang, Hyun-Soo;Park, Chu-Sik;Wang, Gab-Jin;Kim, Jong-Won
    • Journal of Hydrogen and New Energy
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    • v.17 no.1
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    • pp.21-30
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    • 2006
  • [ $M/Fe_2O_3$ ] (M=Rh, Ce and Zr) mixed oxides were prepared using urea method to develop a medium for chemical hydrogen storage by their redox cycles. And their redox behaviors by repeated cycles were studied using temperature programmed reaction(TPR) technique. Additives such as Rh, Ce and Zr were added to iron oxides in order to lower the reaction temperature for reduction by hydrogen and re-oxidation by water-splitting. From the results, concentration of urea used as a precipitant had little effect on particle size and reduction property of iron oxide. TPR patterns of iron oxide consisted of two reduction peaks due to the course of $Fe_2O_3\;{\rightarrow}\;Fe_3O_4\;{\rightarrow}\;Fe$. The results of repeated redox tests showed that Rh added to iron oxide have an effect on lowering the re-oxidation temperature by water-splitting. Meanwhile, Ce and Zr additives played an important role in prevention of deactivation by repeated cycles. Finally, Fe-oxide(Rh, Ce, Zr) sample added with Rh, Ce and Zr showed the lowest re-oxidation temperature by water-splitting and maintained high $H_2$ recovery in spite of the repeated redox cycles. Consequently, it is expected that Fe-oxide(Rh, Ce, Zr) sample can be a feasible medium for chemical hydrogen storage using redox cycle of iron oxide.

Studies on Reforming Gas Assisted Regeneration of Multi-channel Catalyzed DPF (합성가스(Reforming gas)를 이용한 멀티채널 CDPF의 재생 특성 연구)

  • Choi, Kwang-Chun;Chung, Jin-Hwa;Song, Soon-Ho;Chun, Kwang-Min
    • Transactions of the Korean Society of Automotive Engineers
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    • v.19 no.3
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    • pp.138-145
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    • 2011
  • Diesel particulate filter (DPF) systems are being used to reduce the particulate matter emission of diesel vehicles. The DPF should be regenerated after certain driving hours or distance to eliminate soot in the filter. The most widely used method is active regeneration with oxygen at $550{\sim}650^{\circ}C$. Syngas (synthetic gas) can be used to lower the regeneration temperature of Catalyzed DPF (CDPF). The syngas is formed by fuel reforming process of CPOx (Catalytic Partial Oxidation) at specific engine condition (1500rpm, 2bar) using 1wt.% $Rh/CeO_2-ZrO_2$ catalyst. The oxidation characteristics of PM with syngas supplied to filter were studied using partial flow system that can control temperature and flow rate independently. The filter is coated with washcoat loading of $25g/ft^3$ $Pt/Al_2O_3-CeO_2$, and multi-channel CDPF (MC-CDPF) was used. The filter regeneration experiments were performed to investigate the effect of syngas exothermic reaction on soot oxidation in the filter. For this purpose, before oxidation experiment, PM was collected about 8g/L to the filter at engine condition of 1500rpm, bmep 8bar and flow temperature of $200^{\circ}C$ Various conditions of temperature and concentration of syngas were used for the tests. Regeneration of filter started at 2% $H_2$ and CO concentration respectively and inlet temperature of $260^{\circ}C$. Filter Regeneration occurs more actively as the syngas concentration becomes higher.

The effect of Rh/Ce/Zr additives on the redox cycling of iron oxide for hydrogen storage (산화철의 환원-산화 반응을 이용한 수소저장에 미치는 Rh/Ce/Zr의 효과)

  • Lee, Dong-Hee;Cha, Kwang-Seo;Park, Chu-Sik;Kang, Kung-Soo;Kim, Young-Ho
    • 한국신재생에너지학회:학술대회논문집
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    • 2007.06a
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    • pp.49-52
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    • 2007
  • We investigated hydrogen storage and production properties using redox system of iron oxide($Fe_{3}O_{4}$ + $4H_{2}$ ${\leftrightarrows}$ 3Fe + $4H_{2}O$) modified with rhodium, ceria and zirconia under atmospheric pressure. Reduction of iron oxide with hydrogen(hydrogen storage) and re-oxidation of reduced iron oxide with steam(hydrogen evolution) was carried out using a temperature programmed reaction(TPR) technique. On the temperature programmed studies, the effects of amounts of cerium and zirconium on the re-oxidation rate of partial reduced iron oxides were increased with increasing metal additives amount, but the rhodium amount showed little effect on the re-oxidation rate. On the thermal studies, the re-oxidation rates were enhanced with increasing temperature(300 $^{\circ}C$ < 350 $^{\circ}C$).

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A Study of the Reaction Characteristics on Hydrocarbon Selective Catalytic Reduction of NOx Over Various Noble Metal Catalysts (다양한 귀금속 촉매를 이용한 NOx의 탄화수소 선택적촉매환원 반응 특성에 관한 연구)

  • Kim, Sung-Su;Jang, Du-Hun;Hong, Sung-Chang
    • Clean Technology
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    • v.17 no.3
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    • pp.225-230
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    • 2011
  • Characteristics of hydrocarbon selective catalytic reduction of NOx using various noble metal catalysts were investigated. The best active metal is Pt, supports are $CeO_2$ and $TiO_2$ by strong interactions between active metals, and 55% of conversion rate of NOx is shown. Pd, Rh and Ag catalysts presented a conversion of less than 20% as active metals, and supports also showed the poor activity compared to $SiO_2$ and $ZrO_2$. Experiments were performed with different types of reducing agents, amount, concentration of oxygen and space velocity in order to investigate the performance of catalysts according to operating conditions. The results confirm that the methane is better than propane as a reducing agent, and as the ratio of methane/nitrogen oxide increases, the catalytic activity increased, as the concentration of oxygen increases and space velocity decreases, the performance of catalysts increased.

Quantitative Analysis of Trace Metals in Lithium Molten Salt by ICP-AES (ICP-AES를 이용한 리튬 용융염내의 미량 금속성분원소 정량에 관한 연구)

  • Kim, Do-Yang;Pyo, Hyung-Yeal;Park, Yong-Joon;Park, Yang-Soon;Kim, Won-Ho
    • Analytical Science and Technology
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    • v.13 no.3
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    • pp.309-314
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    • 2000
  • The quantitative analysis of various trace metals including fission products in lithium molten salts has been performed using a inductively coupled plasma atomic emission spectrometer (ICP-AES). The spectral interferences of lithium content, 500, 1,000 and 2,000 mg/L, in the sample solution were investigated using an optimum wavelength for the respective metal species. As a result, the line intensities for Y, Nd, Sr, and La had no influences from the lithium content up to 2,000 mg/L, while Mo, Ba, Ru, Pd, Rh, Zr and Ce showed spectral interferences of 10% to 50%. The group separation of metals from lithium in the molten salts solution was carried out by adding ammonia water into the solution. The recovery of Ru, Y, Rh, Zr, Nd, Ce, La and Eu was found to be over 90%, while Mo, Ba, Pd, and Sr provided low recovery percentages.

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