• Proceedings of the KAIS Fall Conference
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• 2008.11a
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• pp.394-396
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• 2008

주요 온실가스인 이산화탄소를 회수 및 저장(Carbon Capture and Storage)하는 기술은 주로 적은 $CO_2$농도를 가지는 연소후 포집공정이 개발 및 적용되었으나, 최근에는 보다 적극적으로 이산화탄소를 분리하기 위하여 연소전 석탄가스화복합발전(IGCC)과 같은 공정에 적용하여 반응공정 중에 생성되는 높은 농도의 $CO_2$를 분리하는 공정이 선진국을 중심으로 활발히 연구가 진행되고 있다. 본 연구에서는 고압의 연소전 조건에서 아민계보다 흡수속도는 느리나 생성가스에 유입되는 $O_2$, SOx, NOx에 의한 부반응 현상, 휘발에 의한 손실, 열적 열화현상이 나타나지 않는 알칼리염계 흡수제의 $CO_2$ 흡수특성에 대하여 연구하였다.

• 한국연소학회:학술대회논문집
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• 2013.06a
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• pp.65-68
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• 2013

In a syngas cooling system of coal gasification process, fly slag carried by syngas deposit on the surface of heat exchanger. The deposited materials form a fouling layer with several millimeters thickness, disturbing heat transfer between steam and syngas. This study investigates flow and heat transfer characteristics of syngas in helical coil heat exchanger using computational fluid dynamics under clean and fouled surface condition. Process model were also designed and its results are in good agreement with CFD results.

• Journal of Energy Engineering
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• v.20 no.2
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• pp.123-142
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• 2011

Coal Gasification Technology is one of the best alternatives among clean fossil fuel utilization. Major technology holding companies are devoting their efforts to develop more advanced technology to dominate the market in advance because of its importance on the applications such as IGCC, CTL, coal to SNG, various chemicals and so on. Japan and China, as well as America and European countries, have developed couple of thousands ton/day-class coal gasification technology. However, our gasification technology remains in the development stage with couple of ton/day-class pilot plant. So, we should be interested in developing this technology considering that we are heavily dependent of coal energy. In this paper, we summarized the trend and status of coal gasification technology development and commercial deployment of major technology holding companies mainly from the presentation materials of 'Gasification Technology Conference 2010', which is the biggest place of information exchange for recent coal gasification technology.

• Journal of Energy Engineering
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• v.11 no.3
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• pp.187-193
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• 2002

IGCC (Integrated Gasification Combined Cycle) power plant is becoming more attractive because it allows that various fuels like coal, heavy oil md even residue oil and wood are used in a gas turbine. This paper presents a prediction of performances of gas turbine when low caloric value syngas fuels produced from the IGCC is used in it originally designed with natural gas fuel. Using a systemic method which predicts a gas turbine behavior with limited design data, when natural gas, design fuel and four other types of syngas are used in GE 7FA gas turbine, its performances are predicted on design and off-design conditions.

• Korean Chemical Engineering Research
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• v.48 no.2
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• pp.129-139
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• 2010

Coal gasification process, which had developed originally to convert coal from hydrogen and carbon monoxide, has used and developed in many countries because of environmental advantages such as carbon dioxide storage, decrease of pollutants and so on. Generally entrained-flow gasification process using pulverized coal under $75{\mu}m$ is used in Integrated Gas Combined Cycle(IGCC) because of easy scale up and high efficiency of energy conversion. Especially entrained-flow gasifers with coal water slurry have been used in many applications due to its fully developed technologies. In this paper, several technologies for coal-water slurry gasification that involves slurry preparation, burner, gasifier, slag melting and numerical simulation for plant design and operation were investigated. Entrained-flow gasification with coal water slurry can be used for synfuel production, SNG, chemicals as well as IGCC. To develop hybrid gasification process and use different types of coal, it is necessary to develop new technologies that will increase efficiency of the process.

• Journal of Hydrogen and New Energy
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• v.21 no.5
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• pp.442-451
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• 2010

This paper describes the calculation method to obtain the product composition of coal pyrolysis at high pressure and high temperature. The products of coal pyrolysis should be determined for the coal gasifier simulation, and this is the first step of the coal gasifier simulation. The pyrolysis product distribution greatly affects the coal gasifier efficiency such as carbon conversion, cold gas efficiency and the syngas composition at the outlet of the gasifier. The present calculation method is based on the coal ultimate/proximate analysis and several correlations among gasifier pressure, coal properties and pyrolysis products. The calculated products for 5 coals have been compared with those from the commercial pyrolysis model.

• Journal of Hydrogen and New Energy
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• v.22 no.6
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• pp.913-924
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• 2011

A steady-state analysis has been conducted to predict the behavior of the slag layer in the entrained-flow slagging coal gasifier. The analysis takes into consideration the composition dependent slag properties such as density, viscosity, heat capacity, thermal conductivity, and temperature of critical viscosity. The amount of added flux to the design coal and the variation of syngas temperature inside the gasifier have been adopted as calculation parameters. The predicted results are the local thickness of the molten and the solid slag layers, and the slag viscosity and the velocity distribution across the molten slag layer along the gasifier wall near the slag tap.

• 한국신재생에너지학회:학술대회논문집
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• 2011.05a
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• pp.73.2-73.2
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• 2011

석탄 합성가스 중에는 $H_2S$, HCl, $NH_3$와 같은 불순물이 포함되어 있다. 이러한 가스들은 오염가스 배출과 관련한 환경기준 준수와 터빈과 같은 설비의 보호를 위해 제거되어야 한다. 석탄 합성가스 중 HCl 농도는 탄종에 따라 다르기는 하지만 많게는 1000 ppmv 수준까지 존재한다. 합성가스를 이용하여 발전을 하는 경우 가스터빈 보호를 위해 HCl은 <3 ppmv 이하로 정제되어야 하고, 합성가스를 연료전지에 사용하고자 하는 경우에는 HCl을 <0.5 ppmv 수준까지, 화학원료로 사용하고자 하는 경우에는 <10 ppbv 수준까지 정제하여야 한다. 또한 HCl은 고온 탈황공정에 사용되는 흡수제의 활성에도 장기적으로 부정적인 영향을 주기 때문에 고온에서 HCl을 정제할 수 있는 흡수제가 필요하다. 본 연구에서는 알칼리금속을 활성물질로 사용하여 분무건조법으로 제조한 HCl 흡수제에 대해 물성 및 HCl과의 반응성을 살펴보았다. $300-500^{\circ}C$ 영역에서 K-계 및 Na-계 흡수제에 대해 고정층반응기에서 HCl 가스를 함유한 모사 합성가스를 이용하여 상압 조건에서 Cl 흡수능을 측정한 결과 15wt% 이상의 흡수능을 나타내었으며 반응온도가 높을수록 흡수능이 증가함을 알 수 있었다. XRD 분석을 통하여 Cl은 K 및 Na와 반응하여 KCl과 NaCl을 형성하면서 흡수됨을 알 수 있었다. 20 bar 조건에서 실험한 결과에서도 동일한 경향의 반응성을 나타내었으며 반응온도가 낮을수록 흡수능은 감소하지만 Cl을 더 낮은 농도로 정제할 수 있었다. 본 실험에 사용된 Na 및 K계 흡수제는 모두 연소 후 배가스 중 $CO_2$를 제거하기 위한 흡수제로 사용되는 고체 흡수제이다. 석탄화력발전소 배가스에 연계되어 $CO_2$ 회수실험에 사용되었던 사용 후 $CO_2$ 흡수제에 대해 HCl 흡수 실험을 수행한 결과에서도 우수한 HCl 제거 성능을 보여 주었다. 이로부터, 폐 $CO_2$ 흡수제의 HCl 흡수제로서의 활용가능성을 확인 하였다.

• Journal of Hydrogen and New Energy
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• v.20 no.4
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• pp.352-359
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• 2009

KEPRI is developing a Korean type coal-gasification system and the scale is 20 ton/day. Prior to this pilot plant, a 1 ton/day class gasification system will be used for pre-testing of several coal types. This paper introduces the configuration and design conditions of this 1 ton/day class system, presenting the gas/coal ratio, oxygen/coal ratio, cold gas efficiency, CFD analysis of gasifier, and others. The existing combustion furnace for residual oil was retrofitted as a coal gasifier and a vertical and down-flow type burner was manufactured. Ash removal is carried out through a water quencher and a scrubber following the quencher, and the sulfur is removed by adsorption in the activated carbon tower. The gas produced from the gasifier is burned at the flare stack. In this paper, the results of design conditions and initial operation conditions of I ton/day gasification system are compared together.

• Journal of Hydrogen and New Energy
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• v.21 no.5
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• pp.470-477
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• 2010

The IGCC (Integrated gasification combined cycle) is known for one of the highest efficiency and the lowest emitting coal fueled power generating technologies. As the core technology of this system is the gasifier to make the efficiency and the continuous operation time increase, the research about different coal's gasification has been conducted. Our research group had set-up the coal gasifier for the pilot test to study the effect of different coals-Shenhua and Adaro coal- on gasification characteristics. Gasification conditions like temperature and pressure were controlled at a fixed condition and coal feed rate was also controlled 30 kg/h to retain the constant experimental condition. Through this study we found effects of coal composition and $O_2$/coal ratio on the cold gas efficiency, carbon conversion rate. The compounds of coal like carbon and ash make the performance of gasifier change. And carbon conversion rate was decreased with reduced $O_2$/coal ratio. The optical $O_2$/coal ratio is 0.8 for the highest cold gas efficiency approximately. At those operating conditions, the higher coal has the C/H ratio, the lower syn-gas has the $H_2$/CO ratio.