• Title/Summary/Keyword: Oxygen Enriched Combustion

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The Study of Waste Treatment using Advanced Oxygen Enriched Combustion System (산소부하 연소 시스템을 이용한 폐기물 열처리에 관한 연구)

  • Lee, Keon-Joo
    • 한국연소학회:학술대회논문집
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    • 2003.05a
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    • pp.231-239
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    • 2003
  • In this study, the waste of landfill was treated using advanced enriched oxygen combustion system. The oxygen concentration of this study was 21%, 25%, 30% and 40% and the operating capacity was 200 g/min and the residence time was 10 minutes. As increased the oxygen concentration of combustion air. temperature of the incinerator was increased and the temperature was increased rapidly when the oxygen concentration was 30%. As increased the oxygen concentration, the NOx (ppm) of flue gas increase d for thermal NOx, however the CO (ppm) of flue gas decreased according to the increase of combustion efficiency . The optimum operation condition of incineration was obtained when the oxygen concentration is 30%${\sim}$40%. The unburned carbon of ash decreased from 10% to 4% when the oxygen concentration was increased from 21% to 30%, therefore the high combustion efficiency can be obtained if used the oxygen enriched combustion system.

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NO Emission Characteristics of Oxygen-Enriched Combustion with $CO_2$ Recirculation in Counterflow Diffusion Flame (대향류 화염에서 $CO_2$ 재순환 산소부화연소의 NO 배출 특성)

  • Park, June-Sung;Cho, Han-Chang;Park, Jeong
    • Journal of the Korean Society of Combustion
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    • v.12 no.1
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    • pp.28-37
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    • 2007
  • Numerical study is conducted to grasp the flame structure and NO emissions for a wide range of oxy-fuel combustion (covering from air blown combustion to pure oxygen combustion) and for various mole fractions of recirculated $CO_2$ in $CH4-O_2/N_2/CO_2$ counterflow diffusion flames. Special concern is given to the difference of the flame structure and NO emissions between air blown combustion and oxy-fuel combustion w/o recirculated $CO_2$ and is also focused on chemical effects of recirculated $CO_2$. Air blown combustion and oxy-fuel combustion w/o recirculated $CO_2$ are shown to be considerably different in the flame structure and NO emissions. Modified fuel oxidation reaction pathways in oxygen-enriched combustion are provided in detail compared to those in air blown combustion w/o recirculated $CO_2$. The formation and destruction of NO through Fenimore and thermal mechanisms are also compared for air blown combustion and oxyegn-enriched combustion w/o recirculated $CO_2$, and the role of the recirculated $CO_2$ and its chemical effects are discussed. Importantly contributing reaction steps to the formation and destruction of NO are also estimated in oxygen-enriched combustion in comparison to air blown combustion.

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Polymer Waste Incineration by Oxygen Enriched Combustion (사업장폐기물의 순산소 소각기술)

  • Han, In-Ho;Choi, Kwang-Ho;Choung, Jin-Woo
    • 한국연소학회:학술대회논문집
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    • 2000.12a
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    • pp.132-139
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    • 2000
  • Oxygen enriched incineration can increase the incineration capacity for wastes and dramatically reduce air pollutant emissions such as CO and dioxine by the allowing complete combustion of wastes in incinerator. Furthermore, this technology is proven to have many benefits including an energy-saving, cost-effective, and versatile application for diverse wastes compared with the conventional air incineration technology. The reduced pollutant emissions in flue gas and higher incineration efficiency are also available when the oxygen enriched air is used for the high temperature incineration systems. On the basis of the experimental results the oxygen enrichment system is successfully applied to the rotary kiln incinerator for industrial wastes. The oxygen enriched incineration system could be allowed more compact design of incinerator and flue gas treatment system due to both increasing incineration capacity and reducing flue gas volume. Therefore, oxygen enriched incineration technology is becoming highlighted in the waste incinerator which strongly require more stable efficiency and environmentally friendly and safe operationPut Abstract text here.

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Effect of Oxygen Enriched Air on the Combustion of a Turbulent Diffusion Flat Flame (산소부화공기가 난류 확산 평면화염의 연소에 미치는 영향)

  • Kwark, Ji-Hyun;Jeon, Chung-Hwan;Chang, Young-June
    • Journal of the Korean Society of Combustion
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    • v.8 no.3
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    • pp.1-7
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    • 2003
  • Combustion using oxygen enriched air is an energy saving technology that can increase thermal efficiency by the improvement of burning rate and by the high temperature flame. Flame figures, OH radical intensities, temperature distributions and emission concentrations were measured according to oxygen enriched concentration and swirl number in a turbulent diffusion flat flame. It appeared that flame figure became flat and NO concentration decreased with increase of swirl number, and that the flame temperature increased high with increase of oxygen enriched concentration. In particular, it was most significant between oxygen concentration $40{\sim}60%$.

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The Effect of Hybrid Reburning on NOx Reduction in Oxygen-Enriched LPG Flame (산소부화 LPG 화염에서 혼합형 재연소 방법에 의한 NOx 저감 효과)

  • Lee, Chang-Yeop;Baek, Seung-Wook
    • Journal of the Korean Society of Combustion
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    • v.12 no.4
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    • pp.14-21
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    • 2007
  • In order to enhance combustion efficiency, oxygen-enriched combustion is used by increasing the oxygen ratio in the oxidizer. However, since the flame temperature increases, NOx formation in the furnace seriously increases for low oxygen enrichment ratio. In this case, reburning is a useful technology for reducing nitric oxide. In this research, experimental studies have been conducted to evaluate the hybrid effects of reburning/selective non-catalytic reaction (SNCR) and reburning/air staging on NOx formation and also to examine heat transfer characteristics in various oxygen-enriched LPG flames. Experiments were performed in flames stabilized by a co-flow swirl burner, which were mounted at the bottom of the furnace. Tests were conducted using LPG gas as main fuel and also as reburn fuel. The paper reported data on flue gas emissions, temperature distribution in furnace and various heat fluxes at the wall for a wide range of experimental conditions. Overall temperature in the furnace, heat fluxes to the wall and NOx generation were observed to increase by low level oxygen-enriched combustion, but due to its hybrid effects of reburning, SNCR and Air staging, NOx concentration in the exhaust have decreased considerably.

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The combustion characteristics of LNG-Oxygen Enriched Combustion in swirl flame. (LNG-산소부화 선회류연소특성)

  • Kim, Kyung-Lae;Kim, Hyouck-Ju;Ryu, Jeong-In
    • 한국연소학회:학술대회논문집
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    • 2002.11a
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    • pp.41-47
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    • 2002
  • Oxygen has been used extensively in various industries for many years. Despite earlier successful attempts to use oxygen in industrial combustion furnaces, its full theoretical researches have only recently begun to be realized. The aim of this study is to investigate the effect of oxygen enriched combustion. This paper analyzes the characteristics of oxygen enriched combustion, and deals with the experimental investigation of the flame temperature and NOx concentration in exhaust gas. The flame temperature, concentration of exhaust gas were measured and flame configurations were photographed according to the variation of oxygen concentrations in oxidizer.

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Combustion Characteristics of a Turbulent Diffusion Flat Flame According to Oxygen Enriched Concentration of Combustion Air (연소공기의 산소부화농도에 따른 난류확산 평면화염의 연소특성)

  • Kwark, Ji-Hyun;Jeon, Chung-Hwan;Chang, Young-June
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.28 no.3
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    • pp.281-288
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    • 2004
  • Combustion using oxygen enriched air is an energy saving technology that can increase thermal efficiency by improving the burning rate and by increasing the flame temperature. Flame figures, OH radical intensities, temperature distributions and emissions concentration were examined according to oxygen enriched concentration(OEC) in a turbulent diffusion flat flame. As long as the oxygen enriched concentration was increased, the length and volume of the flat flame was decreased while OH radical intensity was raised and the flame temperature was increased. However, RMS of the fluctuating temperature was decreased, and more homogeneous temperature field was formed. Thermal NO also was increased with increase of oxygen enriched concentration, but CO was decreased due to the increase of chemical reaction rate.

Characteristics for Effects of Co2 Addition to Oxygen-Enriched Combustion (산소부화연소에서 Co2 첨가에 대한 연소 특성)

  • Kim, Han-Seok;Kim, Ho-Keun;Ahn, Kook-Young;Kim, Yong-Mo
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.28 no.1
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    • pp.9-15
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    • 2004
  • $CO_2$ is a well-known green house gas as well as the major source of global warming. Many researchers have studied to reduce $CO_2$ emission in combustion processes. Among the method for reducing $CO_2$ emission, oxygen-enriched combustion has been proposed. Because its adiabatic flame temperature is relatively too high, existing facilities must be changed or the flame temperature in the combustion zone should be reduced. The combustion characteristics, composition in the flame zone, temperature profile and emission gases were investigated experimentally for the various oxygen-enriched ratios(OER) by the addition of $CO_2$, under constant $O_2$ flow rate. Results showed that the reaction zone was quenched and broadened as the addition of $CO_2$ was increased. The emission of NOx in flue gas was decreased as decreasing temperature in reaction zone. It was also shown that the reaction was delayed by the cooling effect. As the addition of $CO_2$ was increased, the composition of CO in the flame zone was increased due to the increase of reaction rate by increasing mixing effect of oxidant/fuel at OER=0%, but the composition of CO was decreased by quenching effect at OER=50% and 100%.

Effects of $CO_2$ addition to Oxygen-Enriched Combustion (산소부화연소에서 $CO_2$ 첨가에 대한 영향)

  • Kim, Ho-Keun;Kim, Han-Seok;Ahn, Kook-Young;Kim, Yong-Mo
    • Proceedings of the KSME Conference
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    • 2003.04a
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    • pp.1389-1394
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    • 2003
  • $CO_2$ is a well-known green house gas, which is the major source of global warming. Many researchers have studied to reduce $CO_2$ emission in combustion processes. Among the method for reducing $CO_2$ emission, oxygen-enriched combustion has been proposed. But the adiabatic flame temperature is too high. So existing facilities must be changed, or the adiabatic flame temperature in the combustion zone should be reduced. The combustion characteristics, composition in the flame zone, temperature profile and emission gases were studied experimentally for the various oxygen-enriched mtios(OER) by addition of $CO_2$ under coustant $O_2$ flowrate. Results showed that the reaction zone was quenched, broadened, as addition of $CO_2$ was increased. Temperature has a large effect on the NOx emission. The emission of NOx in flue gas decreased due to the decreased temperature of reaction zone. It was also shown that the reaction was delayed by the cooling effect. As the addition of $CO_2$ was increased, the composition of CO in the flame zone increased due to the increase of reaction rate by increasing mixing effect of oxidant/fuel at OER=0, but the composition of CO decreased by quenching effect at OER=50 and 100%.

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Combustion characteristics inside the furnace with a flat flame burner by oxygen enriched and swirled air (산소부화와 선회수에 따른 평면화염버너의 로 내 연소특성)

  • Kwark, Ji-Hyun;Jeon, Chung-Hwan;Chang, Young-June
    • Proceedings of the KSME Conference
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    • 2001.11b
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    • pp.177-184
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    • 2001
  • Combustion using oxygen enriched air is an energy saving technology that can increase thermal efficiency by the improvement of burning rate and high temperature flame. But information about it is not so enough yet. Flame figure, temperature distribution and emission concentration were measured with oxygen enriched concentration and swirl number in a turbulent diffusion flame to investigate the combustion characteristics. The results showed that flame figure became different as long as oxygen enriched concentration varied and that concentration of NO increased suddenly around $O_2$ 60%.

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