• Title/Summary/Keyword: Catalyst-bed

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Catalytic Decomposition of Hydrogen Peroxide for Application on Micro Propulsion (마이크로 추력기 응용을 위한 과산화수소 촉매 분해 반응)

  • An Sung-Yong;Lee Jong-Kwang;Rang Seong-Min;Kwon Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2005.11a
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    • pp.266-271
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    • 2005
  • An experimental investigation of a microthruster using hydrogen peroxide as a monopropellant is described. The study comprises of preparation method of silver as a catalyst and performance evaluation of a catalytic reaction chamber. Silver was reduced in $H_2$ environment at $500^{\circ}C$. The catalytic reaction chamber was tested to determine the optimum configuration of the catalyst bed. The catalyst bed was made of a glass wafer substrate sputtered with silver and had a length of 20 mm. The conversion rate was measured with various residence time, catalyst bed temperature, catalytic coated area.

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Performance Evaluation of a Micro Thruster with variation of catalyst loading condition (촉매 담지 조건의 변화에 따른 초소형 추력기의 성능평가)

  • Lee, Jeong-Sub;An, Sung-Yong;Kwon, Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2008.11a
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    • pp.109-112
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    • 2008
  • A performance of micro thruster was measured with catalyst bed that was prepared by different catalyst loading condition for the optimization of catalyst bed size. Among the catalyst loading conditions, pH level of precursor solution was changed by several solutions like Nitric acid or Sodium hydroxide. For the each case, it was heated at different drying temperatures that can affect the phase of catalyst loaded on support. From these results, it was studied that the effect of catalyst loading condition on the performance. 90wt% hydrogen peroxide was used as a monopropellant, and platinum was chosen as a catalyst. Characteristic velocity efficiency and temperature efficiency were used for the performance evaluation.

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Catalytic Pyrolysis of Various Carbon Number Feed Oil Using a Spouted Bed Reactor (Spouted Bed Reactor를 이용한 다양한 탄소수 원료유 촉매 열분해)

  • Yoo, Kyeong Seun;Park, Sung Hoon;Park, Young-Kwon
    • Applied Chemistry for Engineering
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    • v.22 no.6
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    • pp.627-630
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    • 2011
  • We focus on a catalytic process based on direct injection method that can produce high-quality oils of gasoline and kerosene with various carbon-number feed oils. The reaction characteristics of a commercial catalyst were analyzed using a spouted bed reactor. Decane and pentadecane were used to compare the characteristics of the fixed bed and the spouted bed reactor. The yield of gasoline plus kerosene was highest at the reaction temperature of $550^{\circ}C$. For the spouted bed reactor, the at-a-pulse injection was more effective for catalytic cracking of feed oils than multiple consecutive injections. The reaction activity became higher as the carbon number of feed oil is larger.

Hydrogenation of Polycyclic Aromatic Hydrocarbons Over Pt/Kieselguhr Catalysts in a Trickle Bed Reactor (Trickle Bed Reactor에서 Pt/Kieselguhr 촉매를 이용한 다환방향족 탄화수소 수소화 반응)

  • Seung Kyo, Oh;Seohyeon, Oh;Gi Bo, Han;Byunghun, Jeong;Jong-Ki, Jeon
    • Clean Technology
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    • v.28 no.4
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    • pp.331-338
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    • 2022
  • The objective of this study is to prepare bead-type and pellet-type Pt (1 wt%)/Kieselguhr catalysts as hydrogenation catalysts for the polycyclic aromatic hydrocarbons (PAHs) included in pyrolysis fuel oil (PFO). The optimal reaction temperature to maximize the yield of saturated cyclic hydrocarbons during the PFO-cut hydrogenation reaction in a trickle bed reactor was determined to be 250 ℃. A hydrogen/PFO-cut flow rate ratio of 1800 was found to maximize 1-ring saturated cyclic compounds. The yield of saturated cyclic compound increased as the space velocity (LHSV) of PFO-cut decreased. The difference in hydrogenation reaction performance between the pellet catalyst and the bead catalyst was negligible. However, the catalyst impregnated by Pt after molding the Kieselguhr support (AI catalyst) showed higher hydrogenation activity than the catalyst molded after Pt impregnation on the Kieselguhr powder (BI catalyst), which was a common phenomenon in both the pellet catalysts and bead catalysts. This may be due to a higher number of active sites over the AI catalyst compared to the BI catalyst. It was confirmed that the pellet catalyst prepared by the AI method had the best reaction activity of the prepared catalysts in this study. The majority of the PFO-cut hydrogenation products were cyclic hydrocarbons ranging from C8 to C15, and C11 cyclic hydrocarbons had the highest distribution. It was confirmed that both a cracking reaction and hydrogenation occurred, which shifted the carbon number distribution towards light hydrocarbons.

Simulation for Possible Coke-Free Operation of a Packed Catalyst Bed Reactor in the Steam-CO2 Reforming of Natural Gas (천연가스의 수증기-이산화탄소 복합개질용 촉매 충진 반응기의 코킹 회피 운전을 위한 모사)

  • LEE, DEUK KI;LEE, SANG SOO;SEO, DONG JOO;YOON, WANG LAI
    • Journal of Hydrogen and New Energy
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    • v.26 no.5
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    • pp.445-452
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    • 2015
  • A tubular packed bed reactor for the steam-$CO_2$ combined reforming of natural gas to produce the synthesis gas of a target $H_2/CO$ ratio 2.0 was simulated. The effects of the reactor dimension, the feed gas composition, and the gas feeding temperature upon the possibility of coke formation across the catalyst bed were investigated. For this purpose, 2-dimensional heterogeneous reactor model was used to determine the local gas concentrations and temperatures over the catalyst bed. The thermodynamic potential distribution of coke formation was determined by comparing the extent of reaction with the equilibrium constant given by the reaction, $CH_4+2CO{\Leftrightarrow}3C+2H_2O$. The simulation showed that catalysts packed in the central region nearer the entrance of the reactor were more prone to coking because of the regional characteristics of lower temperature, lower concentration of $H_2O$, and higher concentration of CO. With the higher feeding temperature, the feed gas composition of the increased $H_2O$ and correspondingly decreased $CO_2$, or the decrease in the reactor diameter, the volume fraction of the catalyst bed subsequent to coking could be diminished. Throughout the simulation, reactor dimension and reaction condition for coking-free operation were suggested.

Hydrogen production by catalytic decomposition of propane over carbon black catalyst in a fluidized bed (유동층 반응기에서 카본블랙 촉매를 이용한 프로판의 촉매 분해에 의한 수소생산 연구)

  • Jung, Jae-Uk;Nam, Woo-Seok;Yoon, Ki-June;Lee, Dong-Hyun;Han, Gui-Young
    • 한국신재생에너지학회:학술대회논문집
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    • 2006.06a
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    • pp.85-88
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    • 2006
  • A fluidized bed reactor made of quartz with 0.055m I.D. and 1.0m in height was employed for the thermocatalytic decomposition of propane to produce $CO_2$-free hydrogen. The fluidized bed was proposed for the continuous withdraw of product carbons from the reactor. The propane decomposition rate used carbon black N33O as a catalyst. The propane decomposition reaction was carried out at the temperature range of $600{\sim}800^{\circ}C$, paropane gas velocity of $1.0 U_{mf}\;3.0U_{mf}$ and the operating pressure of 1.0 atm. Effect of operating parameters such as reaction temperature, gas velocity on the reaction rates was investigated. The carbon which was by-product of methane decomposition reaction was deposited on the catalyst surface that was observed by SEM. Resulting production in our experiment were not only hydrogen but also several by products such as methane, ethylene, ethane, and propylene.

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Temperature and exhaust gas conversion efficiency of catalytic converters for natural gas vehicles (천연가스자동차 촉매의 온도분포 및 배기정화 특성)

  • Choe, Byeong-Cheol;Kim, Yeong-Gil;Sakai, Takayuki
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.22 no.2
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    • pp.205-212
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    • 1998
  • Experiments were conducted to investigate the temperature profile and the emissions conversion efficiency of catalytic converters for natural gas vehicles. Two types of the catalyst structure and several transient engine operating conditions were used. The dual-bed catalyst effectively reduced the emissions in a transient period due to the low heat capacity of the front bed. The lanthanoid additives were effective in improving catalyst durability. When the natural gas fueled engine were operated outside of a very narrow window of excess air ratio (from 0.993 to 1.004), the HC and NOx conversion efficiency dropped off. The drop-off were especially fast on the lean side of the window.

Catalyst Reactor Bed of Hydrogen Peroxide Decomposition for Upper Stage Motion Control

  • An, Sung-Yong;Kwon, Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2008.03a
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    • pp.378-382
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    • 2008
  • A 50 N monopropellant thruster being developed for attitude control in a variety of aerospace application systems is described in this paper. Ninety percent hydrogen peroxide was selected as a propellant, since it is much less hazardous than hydrazine. A scaled down thruster with aluminum oxide loaded with the platinum in the reaction chamber was tested to determine propellant decomposition onto a catalyst. A scaled up 50 N thruster, with a catalyst bed of 3 cm in diameter and 4 cm in length, was evaluated by decomposition efficiency based on temperature, ${\eta}_T$, efficiency of characteristic velocity, ${\eta}_{C^*}$, and measurement of thrust. The performance of a 50 N thruster was 40.5 Newton in thrust, about 100 % in ${\eta}_T$, and 98 % in ${\eta}_{C^*}$, and 125 sec in specific impulse at sea level.

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Study on Ni-based Bead Catalyst for Catalytic Thermal Decomposition of Light Hydrocarbons (경질 탄화수소 촉매 열분해를 위한 Ni 기반 구슬 촉매에 대한 연구)

  • JINHYEOK WOO;JUEON KIM;TAEYOUNG KIM;SOOCHOOL LEE;JAECHANG KIM
    • Journal of Hydrogen and New Energy
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    • v.35 no.1
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    • pp.27-33
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    • 2024
  • In this study, we researched Ni-based bead catalysts for the catalytic thermal decomposition of light hydrocarbons. A Ni-based bead-type catalyst was prepared, and catalytic thermal decomposition performance of light hydrocarbons was evaluated. The 30Ni/Al2O3 catalyst exhibited the most superior performance, with the presence of both fibrous and carbon black forms on the catalyst surface. Catalytic performance was evaluated for particles sized between 150-250 and 500 ㎛, with excellent catalytic thermal decomposition properties in the 150-250 ㎛ range. After the reaction, carbon removal through collision between catalysts in the fluidized bed was observed. It was confirmed that as the particle size increases, the amount of carbon removed increases.

Hydrophobic Catalyst Mixture for the Isotopic Exchange Reaction between Hydrogen and Water

  • Paek S.;Ahn D.H.;Choi H.J.;Kim K.R.;LEE M.;YIM S.P.;CHUNG H.
    • Proceedings of the Korean Radioactive Waste Society Conference
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    • 2005.11b
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    • pp.141-148
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    • 2005
  • Pt/SDBC catalyst, which is used for the hydrogen-water isotopic exchange reaction, was prepared. The various properties of the catalyst, such as the thermal stability, pore structure and the platinum dispersion, were investigated. A hydrophobic Pt/SDBC catalyst which has been developed for the LPCE column of the WTRF (Wolsong Tritium Removal Facility) was tested in a trickle bed reactor. An experimental apparatus was built for the test of the catalyst at various temperatures and gas velocities.

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