• Title/Summary/Keyword: Low NOx$CO_2$ Capture

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A Study on the Furnace Heating Characteristics Using Oxy-fuel Combustion (순산소 연소를 이용한 연소로 가열특성에 관한 실험적 연구)

  • Jeong, Yu-Seok;Lee, Eun-Kyung;Ko, Chang-Bok;Noh, Dong-Soon;Jang, Byung-Lok;Han, Hyung-Kee
    • 한국연소학회:학술대회논문집
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    • 2006.10a
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    • pp.229-234
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    • 2006
  • The oxy-fuel combustion heating characteristics is investigated experimentally by measuring furnace and steel temperature variations for batch type furnace simulator with a specially designed low NOx oxy-fuel burner. Economics of using oxy-fuel combustion is confirmed and, the furnace and steel temperature variations for different heating conditions are compared to deduce optimal heating control pattern for energy savings and rapid uniform heating. High $CO_2$ concentration (> 80-90%), low NOx (< 40ppm) and CO (< 10ppm) are measured in the flue gas. Temperature differences (< $30^{circ}C$) inside the furnace and steel are reduced relatively by increasing the burner jet momentum.

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Continuous Operation of $CO_2$/NOx-free 50kW Checmial-Looping Combustor ($CO_2$/NOx-free 50kW 매체순환식 가스연소기 산화-환원 연속반응 실증)

  • Ryu, Ho-Jung;Jin, Gyoung-Tae;Yi, Chang-Keun
    • 한국연소학회:학술대회논문집
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    • 2004.06a
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    • pp.227-234
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    • 2004
  • For gaseous fuel combustion with inherent $CO_2$ capture and low NOx emission, chemical-looping combustion(CLC) may yield great advantages of savings of energy to $CO_2$ separation and suppressing the effect on environment. In chemical-looping combustor, fuel is oxidized by metal oxide medium (oxygen carrier particle) in a reduction reactor. Reduced particles are transported to oxidation reactor and oxidized by air and recycled to reduction reactor. The fuel and the air are never mixed, and the gases from reduction reactor, $CO_2$ and $H_2O$, leave the system as separate stream. The $H_2O$ can be easily separated by condensation and pure $CO_2$ is obtained without any loss of energy for separation. The purpose of this study is to demonstrate inherent $CO_2$ separation and no NOx emission and to confirm high $CO_2$ selectivity, no side reaction (i.e., carbon deposition, hydrogen generation) by continuous reduction and oxidation experiment in a 50kWtb chemical-looping combustor. NiO/bentonite particle was used as a bed material and $CH_4$ and air were used as reacting gases for reduction and oxidation respectively.

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Reaction Characteristics of Five Kinds of Oxygen Carrier Particles for Chemical-Looping Combustor (매체순환식 가스연소기 적용을 위한 5가지 산소공여입자들의 반응특성)

  • Ryu, Ho-Jung;Kim, Gyoung-Tae;Lim, Nam-Yun;Bae, Seong-Youl
    • Journal of Hydrogen and New Energy
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    • v.14 no.1
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    • pp.24-34
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    • 2003
  • For gaseous fuel combustion with inherent $CO_2$ capture and low NOx emission, chemical-looping combustion may yield great advantages for the savings of energy to $CO_2$ separation and suppressing the effect on environment, In chemical-looping combustor, fuel is oxidized by metal oxide medium in a reduction reactor. Reduced particles are transported to oxidation reactor and oxidized by air and recycled to reduction reactor. The fuel and the air are never mixed, and the gases from reduction reactor, $CO_2$ and $H_2O$, leave the system as separate stream. The $H_2O$ can be easily separated by condensation and pure $CO_2$ is obtained without any loss of energy for separation. In this study, five oxygen carrier particles such as NiO/bentonite, NiO/YSZ, $(NiO+Fe_2O_3)VYSZ$, $NiO/NiAl_2O_4$, and $Co_{\chi}O_y/CoAl_2O_4$ were examined &om the viewpoints of reaction kinetics, oxygen transfer capacity, and carbon deposition characteristics. Among five oxygen particles, NiO/YSZ particle is superior in reaction rate, oxygen carrier capacity, and carbon deposition to other particles. However, at high temperature ($>900^{\circ}C$), NiO/bentonite particle also shows enough reactivity and oxygen carrier capacity to be applied in a practical system.

FMEA of Electrostatic Precipitator for Preventive Maintenance (전기집진기 예지보전 단계에서의 고장모드영향분석)

  • Han, Seung-Hun;Lee, Jeong-Uk;Lee, Sun-Youp;Hwang, Jong-Deok;Kang, Dae-Kon
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.26 no.6
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    • pp.706-714
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    • 2020
  • Currently, 90 % of the world's population breathes air with a fine dust content exceeding the World Health Organization's annual average exposure limit (10 ㎍/㎥). Global efforts have been devoted toward reducing secondary pollutants and ultra-fine dust through regulations on nitrogen oxides released over land and sea. Domestic efforts have also aimed at creating clean marine environments by reducing sulfur emissions, which are the primary cause of dust accumulation in ships, through developing and distributing environment-friendly ships. Among the technologies for reducing harmful emissions from diesel engines, electrostatic precipitator offer several advantages such as a low pressure loss, high dust collection efficiency, and NOx removal and maintenance. This study aims to increase the durability of a ship by improving equipment quality through failure mode effects analysis for the preventive maintenance of an electrostatic precipitator that was developed for reducing fine dust particles emitted from the 2,427 kW marine diesel engines in ships with a gross tonnage of 999 tons. With regard to risk priority, failure mode 241 (poor dust capture efficiency) was the highest, with an RPN of 180. It was necessary to determine the high-risk failure mode in the collecting electrode and manage it intensively. This was caused by clearance defects, owing to vibrations and consequent pin loosening. Given that pin loosening is mainly caused by vibrations generated in the hull or equipment, it is necessary to manage the position of pin loosening.