• 제목/요약/키워드: Gas to Particle Conversion Process

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나노펄스 플라즈마를 이용한 탈황 시스템의 H2O 및 NH3, 펄스 인가전압에 따른 입자변환 분석 (The effect of H2O, NH3 and applied voltage to the particle conversion in the desulfurization system using a nano-pulse plasma)

  • 김영훈;신동호;이건희;홍기정;김학준;김용진;한방우;황정호
    • 한국입자에어로졸학회지
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    • 제16권1호
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    • pp.1-8
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    • 2020
  • Nano-pulse plasma technology has great potential as the process simplicity, high efficiency and low energy consumption for SO2 removal. The research on the gas-to-particle conversion is required to achieve higher efficiency of SO2 gas removal. Thus, we studied the effect of the relative humidity, NH3 concentration and applied voltage of the nano-pulse plasma system in the gas to particle conversion of SO2. The particles from the conversions were increased from 10 to 100 nm in diameter as relative humidity, NH3 concentration, applied voltage increases. With these results, nano-pulse plasma system can be used to more efficient removal of SO2 gas by controlling above parameters.

DeSOx/DeNOx 효율 개선을 위한 펄스 코로나 방전하에서 기체미립자 전환반응의 적용 (Application of Gas to Particle Conversion Reaction to increase the DeSOx/DeNOx Efficiency under Pulsed Corona Discharge)

  • 최유리;김동주;김교선
    • 산업기술연구
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    • 제18권
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    • pp.249-258
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    • 1998
  • In this paper, we investigated the post-combustion removal of nitrogen oxide($NO_x$) and sulfur oxide($SO_x$) which is based on the gas to particle conversion process by the pulsed corona discharge. Under normal pressure, the pulsed corona discharge produces the energetic free electrons which dissociate gas molecules to form the active radicals. These radicals cause the chemical reactions that convert $SO_x$ and $NO_x$ into acid mists and these mists react with $NH_3$ to form solid particles. Those particles can be removed from the gas stream by conventional devices such as electrostatic precipitator or bag filter. The reactor geometry was coaxial with an inner wire discharge electrode and an outer ground electrode wrapped on a glass tube. The simulated flue gas with $SO_x$ and $NO_x$ was used in the experiment. The corona discharge reactor was more efficient in removing $SO_x$ and $NO_x$ by adding $NH_3$ and $H_2O$ in the gas stream. We also measured the removal efficiency of $SO_x$ and $NO_x$ in a cylinder type corona discharge reactor and obtained more than 90 % of removal efficiency in these experimental conditions. The effects of process variables such as the inlet concentrations of $SO_x$, $NH_3$ and $H_2O$, residence time, pulse frequencies and applied voltages were investigated.

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고체 연료의 유동층 연소 - 시험 연소로 특성 및 실험 인자 설정 (Solid fuel combustion in a fluidized bed - Characteristics of a lab-scale combustor and experimental parameters)

  • 최진환;박영호;최상민
    • 한국연소학회:학술대회논문집
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    • 한국연소학회 2000년도 제21회 KOSCO SYMPOSIUM 논문집
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    • pp.236-245
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    • 2000
  • A laboratory scale fluidized bed reactor was developed to treat the combustion characteristics of some fuels (wood, paper sludge, refuse derived fuel). The aims were to introduce the means of experiment and interpretation of the results and finally determine the particle characteristics on the pyrolysis and combustion process of the fuel. A single particle combustion process in the fluidized bed was closely observed. Understanding experimental facility characteristics and determining parameters were also carried out. The fuel combustion processes were observed by carbon conversion rate, recovery and mean carbon conversion time. They were estimated with the CO, $CO_2$ gas concentration monitored at the exit of the combustor. Fuel drying and pyrolysis process were governed by temperature distribution in the fuel particle. There was a significant overlap of the drying and devolatilization. However, transition process from devolatilization to char combustion seemed to be determined by mechanical solidity of the fuel particle after devolatilization process.

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SEWGS 공정을 위한 유동층 반응기에서 내부 삽입물의 모양이 WGS 촉매의 CO 전환율에 미치는 영향 (Effect of Bed Insert Geometry on CO Conversion of WGS Catalyst in a Fluidized Bed Reactor for SEWGS Process)

  • 류호정;김하나;이동호;진경태;박영철;조성호
    • 한국수소및신에너지학회논문집
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    • 제24권6호
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    • pp.535-542
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    • 2013
  • To enhance the performance of SEWGS system by holding the WGS catalyst in a SEWGS reactor using bed inserts, effect of bed insert geometry on CO conversion of WGS catalyst was measured and investigated. Small scale fluidized bed reactor was used as experimental apparatus and tablet shaped WGS catalyst and sand particle were used as bed materials. The cylinder type and the spring type bed inserts were used to hold the WGS catalysts. The CO conversion of WGS catalyst with the change of steam/CO ratio was determined based on the exit gas analysis. Moreover, gas flow direction was confirmed by bed pressure drop measurement for each case. The measured CO conversion using the bed inserts showed high value comparable to previous results even though at low catalyst content. Most of input gas flowed through the bed center side when we charged tablet type catalyst into the cylinder type bed insert and this can cause low $CO_2$ capture efficiency because the possibility of contact between input gas and $CO_2$ absorbent is low in this case. However, the spring type bed insert showed good reactivity and good distribution of gas, and therefore, the spring type bed insert was selected as the best bed insert for SEWGS process.

Pilot 규모 2단 형상 가스화기 운전특성 실험 (The operation Characteristic of Pilot-scale 2-Stage Coal gasifier)

  • 홍진표;정재화;서석빈;지준화;이승종;정석우
    • 한국신재생에너지학회:학술대회논문집
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    • 한국신재생에너지학회 2009년도 추계학술대회 논문집
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    • pp.528-532
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    • 2009
  • Integrated Gasification Combined Cycle (IGCC) power plant converts coal to syngas, which is mainly composed with hydrogen and carbon monoxide, by the gasification process and produces electric power by the gas and steam turbine combined cycle power plant. The purpose of this study is to investigate the influence of gasification process to type and structure of gasifier. For this purpose, the performance characteristics of gasification reaction are analyzed with the operation characteristic of pilot-scale 2-stage coal gasifier. It is found that gasification reaction, floating characteristic of melted slag, particle stick of inside of the gasifier, particle stick and deposit of Syngas cooler are the causes in the different performance characteristics.

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외부 화학증착 공정에서의 가수분해반응으로 인한 실리카 생성에 대한 버크-슈만 해석 (Burke-Schumann analysis of silica formation by hydrolysis in an external chemical vapor deposition process)

  • 송창걸;황정호
    • 대한기계학회논문집B
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    • 제20권5호
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    • pp.1671-1678
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    • 1996
  • In external chemical vapor deposition processes including VAD and OVD the distribution of flame-synthesized silica particles is determined by heat and mass transfer limitations to particle formation. Combustion gas flow velocities are such that the particle diffusion time scale is longer than that of gas flow convection in the zone of particle formation. The consequence of these effects is that the particles formed tend to remain along straight smooth flow stream lines. Silica particles are formed due to oxidation and hydrolysis. In the hydrolysis, the particles are formed in diffuse bands and particle formation thus requires the diffusion of SiCl$\_$4/ toward CH$\_$4//O$\_$2/ combustion zone to react with H$\_$2/O diffusing away from these same zones on the torch face. The conversion kinetics of hydrolysis is fast compared to diffusion and the rate of conversion is thus diffusion-limited. In the language of combustion, the hydrolysis occurs as a Burke-Schumann process. In selected conditions, reaction zone shape and temperature distributions predicted by the Burke-Schumann analysis are introduced and compared with experimental data available. The calculated centerline temperatures inside the reaction zone agree well with the data, but the calculated values outside the reaction zone are a little higher than the data since the analysis does not consider diffusion in the axial direction and mixing of the combustion products with ambient air. The temperatures along the radial direction agree with the data near the centerline, but gradually diverge from the data as the distance is away from the centerline. This is caused by the convection in the radial direction, which is not considered in the analysis. Spatial distribution of silica particles are affected by convection and diffusion, resulting in a Gaussian form in the radial direction.

석탄연소 보일러에서 생성된 석탄회의 분석과 형성 메커니즘 해석에 대한 연구 (A Study on the Formation Mechanism of the Fly Ash from Coal Particles in the Coal Burning Boiler)

  • 이정언;이재근
    • 대한기계학회논문집B
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    • 제22권12호
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    • pp.1691-1701
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    • 1998
  • Fly ash produced in coal combustion is a fine-grained material consisting mostly of spherical, glassy, and porous particles. A study on the formation mechanism of the fly ash from coal particles in the pulverized coal power plant is investigated with a physical, morphological, and chemical characteristic analysis of fly ash collected from the Samchonpo power plant. This study may contribute to the data base of domestic fly ash, the improvement of combustion efficiency, fouling phenomena and ash collection in the electrostatic precipitator. The physical property of fly ash is determined using a particle counter for the measurement of ash size distribution. Morphological characteristic of fly ash is performed using a scanning electron micrograph. The chemical components of fly ash are determined using an inductively coupled plasma emission spectrometry(ICP). The distribution of fly ash size was bi-modal and ranged from 12 to $19{\mu}m$ in mass median diameter. Exposure conditions of flue gas temperature and duration within the combustion zone of the boiler played an important role on the morphological properties of the fly ash such as shape, particle size and chemical components. The evolution of ash formation during pulverized coal combustion has revealed three major mechanisms by large particle formation due to break-up process, gas to particle conversion and growth by coagulation and agglomeration.

IGCC 합성가스 급속 냉각시스템의 운전 압력에 따른 열유동 및 입자 거동 특성 연구 (Effect of Operating Pressure on the Heat Transfer and Particle Flow Characteristics in the Syngas Quench System of an IGCC Process)

  • 박상빈;양주향;오준호;예인수;류창국;박성구
    • 한국수소및신에너지학회논문집
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    • 제25권1호
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    • pp.97-104
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    • 2014
  • In a coal gasifier for IGCC, hot syngas leaving the gasifier at about 1550oC is rapidly quenched by cold syngas recycled from the gas cleaning process. This study investigated the flow and heat transfer characteristics in the gas quench system of a commercial IGCC process plant under different operating pressures. As the operating pressure increased from 30 bar to 50 bar, the reduced gas velocity shortened the hot syngas core. The hot fly slag particles were retained within the core more effectively, and the heat transfer became more intensive around the hot gas core under higher pressures. Despite the high particle concentrations, the wall erosion by particle impaction was estimated not significant. However, large particles became more stagnant in the transfer duct due to the reduced gas velocity and drag force under higher pressures.

SEWGS 공정을 위한 유동층 반응기에서 내부 삽입물의 모양 및 WGS 촉매의 형상이 CO 전환율에 미치는 영향 (Effects of Bed Insert Geometry and Shape of WGS Catalysts on CO Conversion in a Fluidized Bed Reactor for SEWGS Process)

  • 류호정;김하나;이동호;배달희;황택성
    • 한국수소및신에너지학회논문집
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    • 제24권2호
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    • pp.150-159
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    • 2013
  • To enhance the performance of SEWGS system by holding the WGS catalyst in a SEWGS reactor using bed inserts, effects of insert geometry and shape of WGS catalysts on CO conversion were measured and investigated. Small scale fluidized bed reactor was used as experimental apparatus and WGS catalyst (particle and tablet) and sand were used as bed materials. The parallel wall type and cross type bed inserts were used to hold the WGS catalysts. The CO conversion with steam/CO ratio was determined based on the exit gas analysis. The measured CO conversion using the bed inserts showed high value comparable to physical mixing cases. Moreover, gas flow direction was confirmed by bed pressure drop measurement for each case. Most of input gas flowed through the catalyst side when we charged tablet type catalyst into the bed insert and this can cause low $CO_2$ capture efficiency because the possibility of contact between input gas and $CO_2$ absorbent is low in this case. New bed insert geometry was proposed based on the results from this study to enhance contact between input gas and WGS catalyst and $CO_2$ absorbent.

뷰테인 건식 개질 반응을 위한 Ni/γ-Al2O3 촉매를 이용한 촉매 공정과 촉매+플라즈마 공정 비교 (Comparison of Dry Reforming of Butane in Catalyst Process and Catalyst+Plasma Process over Ni/γ-Al2O3 Catalyst)

  • 조진오;좌은진;목영선
    • 한국가스학회지
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    • 제22권1호
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    • pp.26-36
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    • 2018
  • 기존 건식 개질 반응에 사용되는 니켈 기반 촉매 공정은 활성화 온도가 높고, 촉매 표면의 활성점에 탄소 침착 및 금속 소결 현상 등의 문제점이 있다. 이에 본 연구에서는 촉매공정에 DBD 플라즈마 공정이 결합된 촉매+플라즈마 공정을 이용하여 뷰테인 건식 개질 반응 특성을 조사하고 기존 촉매 공정과 비교 분석하였다. 촉매의 특성을 파악하기 위해 비표면적 분석기, XRD, SEM 및 TEM 등을 사용하여 물리 화학적 특성을 조사 하였다. $580^{\circ}C$에서 $10%Ni/{\gamma}-Al_2O_3$촉매를 사용한 경우 촉매+플라즈마 공정의 경우 촉매 단독 공정에 비해 이산화탄소와 뷰테인 전환율이 각각 27%, 39%향상되었다. 촉매+플라즈마 공정의 경우 플라즈마에 의해 생성된 다양한 활성종의 영향으로 이산화탄소와 뷰테인 전환율 및 생성되는 수소 농도가 증가하였으며, 뷰테인 건식 개질 반응 과정에서 플라즈마에 의해 니켈 촉매의 크기가 감소하고 분산도가 증가하여 반응 효율이 향상되는 것으로 판단되었다.