• Title/Summary/Keyword: Co-flow burner

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Analysis on Combustion Characteristics of the Oil Burner using Swirl Flow (스월 유동을 이용한 오일 버너의 연소성능분석)

  • Choi, Chang-Woo;Kim, Young-Hwan;Jeong, Jae-Hyun;Park, Kweon-Ha
    • Proceedings of the Korean Society of Marine Engineers Conference
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    • 2005.06a
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    • pp.1-8
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    • 2005
  • This paper addresses the analysis of the combustion characteristics in the oil burner using swirl flow. The reduction of exhaust emissions and high efficiency combustion techniques of the industrial burner have been studied to conserve environmental resources. We make swirl burner equal to dimension of wide burner and it is turn round of the combustion gas in construction. For a vigorous inner flow possessde 3m/s velocity in combustion gas of two burners. In calculation, we make use of a densely mesh to detailed analysis. In this study, the effect of swirl flow on the combustion of a commercial burner is analysed by experimental and also simulative manner. The results show the swirl burner has 40% better efficiency and less emissions of CO, HC, NOx and Smoke.

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Stabilization of Inert-Gas-Diluted Co-Flow Diffusion Flame by a Pilot Flame (불활성기체로 희석된 동축류 확산화염의 파일럿화염에 의한 안정화)

  • Ahn, Taekook;Lee, Wonnam;Park, Sunho
    • Journal of the Korean Society of Combustion
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    • v.20 no.4
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    • pp.19-25
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    • 2015
  • An experimental study was conducted to find the effect of a pilot flame on the flammability of inert-gas-diluted methane and propane. The diffusion pilot flame was formed with propane at the innermost nozzle of a concentric triple co-flow burner. The main diffusion flame was formed with nitrogen-diluted methane or propane at the outermost nozzle of the burner. An air flow was located in-between. The results showed that the existence of the pilot flame helped stabilizing the main flame even at the flammability limit concentration of nitrogen-diluted fuel. The co-flow burner generated re-circulation zones and local variation of equivalence ratio depending on the flow rates of the reactants, which are known to help flame stabilization. Hot-wire experiments confirmed that both heating of the reactants and supplying of active chemical species by the pilot flame contributed to stabilization of the main flame. The results of this study would suggest a design concept for an efficient SVRU system that minimizes the emission of unburned hydrocarbon fuel from ship fuel tanks.

Computational Simulation of Combustion in Power Plant Boiler Acconling to Un-Even Combustion Air (연소용 공기 공급 불균일을 고려한 발전 보일러내 연소환경 시뮬레이션)

  • Go, Young-Gun;Choi, Sang-Min;Kim, Young-Zoo
    • 한국연소학회:학술대회논문집
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    • 2006.10a
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    • pp.137-144
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    • 2006
  • Oil-fired power plants usually use several burners and the combustion air is supplied to each burner through the complicated duct which is called windbox. A windbox should be designed to supply combustion air to each burner evenly but, due to the complicated duct shape, flow distribution in the windbox is unbalanced and uneven supplies of combustion air to each burner are induced by these unbalanced flow distribution in the windbox. These flow patterns tend to make flame unstable, increase the formation of pollutants and lower the overall combustion efficiency. To prevent these disadvantages, flow patterns in the windbox should be investigated for the uniform flow distribution. In this study, computational simulation method was used to investigate the flow distribution in the windbox and measured the velocities at the exit of burners in the real windbox to compare with CFD results. The results show two significant flow patterns. One is that the flow rates of each burner are different from each other and this means that all burners operate in different conditions of air to fuel ratio. The other is that the flow distribution at the exit of each burner is not axi-symmetric although the burner shape is axi-symmetric and this increases the pollutant products like CO.

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Computational Simulation of Combustion in Power Plant Boiler According to Un-Even Combustion Air (연소용 공기 공급 불균일을 고려한 발전 보일러내 연소환경 시뮬레이션)

  • Go, Young-Gun;Choi, Sang-Min;Kim, Young-Zoo
    • 한국연소학회:학술대회논문집
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    • 2005.10a
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    • pp.85-92
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    • 2005
  • Oil-fired power plants usually use several burners and the combustion air is supplied to each burner through the complicated duct which is called windbox. A windbox should be designed to supply combustion air to each burner evenly but, due to the complicated duct shape, flow distribution in the windbox is unbalanced and uneven supplies of combustion air to each burner are induced by these unbalanced flow distribution in the windbox. These flow patterns tend to make flame unstable, increase the formation of pollutants and lower the overall combustion efficiency. To prevent these disadvantages, flow patterns in the windbox should be investigated for the uniform flow distribution. In this study, computational simulation method was used to investigate the flow distribution in the windbox and measured the velocities at the exit of burners in the real windbox to compare with CFD results. The results show two significant flow patterns. One is that the flow rates of each burner are different from each other and this means that all burners operate in different conditions of air to fuel ratio. The other is that the flow distribution at the exit of each burner is not axi-symmetric although the burner shape is axi-symmetric and this increases the pollutant products like CO.

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The comparison of radial and axial flow porous burners from viewpoint of output radiative heat transfer and emissions

  • Tabari, N. Ghiasi;Astaraki, M.R.;Arabi, A.H.
    • Coupled systems mechanics
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    • v.1 no.3
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    • pp.285-295
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    • 2012
  • In this paper, two types of porous burners with radial and axial flow have been modeled numerically and compared. For this purpose, governing equations were solved one-dimensionally for methane-air premix gas. The mechanism used in simulating combustion phenomenon was 15 stage reduced mechanism based on GRI3.0. In order to compare the two burners, the inlet flow rate and fuel-air ratio have been assumed equal for the two burners. The results of the study indicated that reduction in speed and increase in cross-section area in the direction of flow have a considerable influence on the behavior of radial burner in comparison to axial burner. Regarding temperature distribution inside the burner, it was observed that the two above mentioned factors can be influential in temperature of flame propagation region. Also, regarding distribution of CO and NO emission, the results indicate that the porous radial burner has lower emissions in comparison to the axial once. The output radiative heat transfer efficiency of the two burners was also compared and in this case also even the radial porous burner was found to be preferable.

Experimental Study on the Effect of $CO_2$ Feeding on the Oxygen Combustion Characteristics by using Inverse Type Multi-hole Burner (역확산 다공 연소기에서 $CO_2$ 첨가에 따른 순산소 연소 특성에 관한 실험적 연구)

  • Seo, Jeong-Il;Guahk, Young-Tae;Bae, Soo-Ho;Hong, Jung-Goo;Lee, Uen-Do;Shin, Hyun-Dong
    • 한국연소학회:학술대회논문집
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    • 2005.10a
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    • pp.162-169
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    • 2005
  • The performance of oxygen combustion with $CO_2$ feeding was investigated in a pyrex tube furnace. The inverse type multi-hole burner was used for improving mixing and wide operating range. It introduced oxygen, fuel, and oxygen, respectively, from center tube to outer tubes. Oxygen combustion characteristics with excess oxygen ratio, oxygen feeding ratio, and $CO_2$ feeding flow rate were studied to optimize the operating condition and to apply the oxygen combustion with recirculation of flue gas to a real furnace. This paper presents results on the effect of $CO_2$ feeding flow rate on the structure of the flames and concentrations of NO and CO emissions. The visible flame length was shortest due to well mixing between fuel and oxygen when the oxygen feeding ratio was 0.25. The NO emission was reduced drastically regardless of excess oxygen ratio when the $CO_2$ feeding flow rate was larger than 15 lpm. The CO emission is varied by changing the $CO_2$ feeding flow rate but the CO emission characteristics is highly affected by excess oxygen ratio. When the excess oxygen ratio is below ${\lamda}=1.1$, the CO emission increased as the $CO_2$ feeding flow rate increased.

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A Study on the Pollutants Reduction of Venturi Type After-burner by oxygen enrichment and Induced Air (산소부화와 유인공기를 이용한 벤츄리형 후연소기의 오염물질 저감에 관한 연구)

  • 오세원;박준홍;이용후;이진석;이도형
    • Journal of Advanced Marine Engineering and Technology
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    • v.27 no.7
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    • pp.845-851
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    • 2003
  • The purpose of this experimental study is to investigate the quantitative pollutants reduction by oxygen enrichment and induced air effect in venturi type after-burner. For this purpose, CO, $CO_2$, $O_2$. and HC concentrations were measured before and after the after-burner by changing the Oxygen flow rate and area ratio which is defined as the ratio of air inducing area divided by total area. As results of this study, when the area ratio were increased, the emission reduction effect was increased even less oxygen flow rate. In that case when oxygen was injected too little, the pollutants were increased.

The Flow analysis and the Flame structure of Turbulent Premixed Flat Burner (난류예혼합 플랫버너의 유동해석과 화염구조)

  • Kim, Hun-Ju;Yun, Bong-Seok;Heo, Su-Bin;Park, Jae-Min;Lee, Do-Hyung
    • Journal of Advanced Marine Engineering and Technology
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    • v.35 no.4
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    • pp.397-405
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    • 2011
  • Hydrogen energy, as part of eco-friendly alternative energy, is made mostly through reforming of fossil fuels. The turbulent premixed combustion type of metal-fiber flat burner which is recently used in industry was tested in this paper. We measured the mean temperature distributions, CO, HC, $CO_2$ and $O_2$ concentrations to observe the flame structure and flame stability in some kind of experimental conditions. And also PIV and several flow analysis methods were compared to establish the numerical analysis model. The results of this paper will be the basis of the burner design of steam reformer.

A Study on the Combustion Characteristics of Flat-Plate Premixed Burner for Various Flame Surface Media and Heat Exchangers (평판형 예혼합 버너의 다양한 화염면 매질 및 열교환기에 따른 연소 특성)

  • Cho, Eun-Seong;Park, Chang-Kwon;Choi, Kyung-Suhk
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.35 no.10
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    • pp.1033-1040
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    • 2011
  • The premixed burner is a very strong candidate for using household boiler burner system because it has high efficiency, low emission and can be used in compact boiler system. Usually, household boiler burner systems use a Bunsen burner, which consists of an inner rich premixed flame and fuel burned completely by a secondary air supply. It has a relatively long flame length and operates in a high excess of air, so it is difficult to fit such a burner into a high efficiency compact boiler. In this paper, the characteristics of a premixed combustion burner for surface media such as metal fiber, ceramic, and SUS fin were evaluated. In particular, the flow velocity over the burner surface for the cold flow characteristics of the surface material were measured and adjusted. The combustion tests were carried out by taking pictures of the flame and measuring the flame temperature. The amounts of CO and NO were measured and the characteristics of the surface burner materials, combustion chamber, and heat exchangers were evaluated for various excess air ratios and heating values.

A Study on the Co-flow Diffusion Flame Temperature Measurement at Various Fuel Flows Rate Using the Rapid Insertion Technique (급속삽입법을 이용한 연료 유량에 따른 동축류 확산화염에서의 온도 측정에 관한 연구)

  • Han Yongtaek;Lee Kihyung
    • Transactions of the Korean Society of Automotive Engineers
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    • v.13 no.1
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    • pp.51-59
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    • 2005
  • Co-flow laminar diffusion flames' temperature has been studied experimentally for ethylene$(C_2H_4)$ using a co-flow burner in order to investigate the characteristics of diffusion flame's temperature distribution. The temperature distributions in the flame were measured by rapid insertion of a R-type thermocouple. The measurement area was divided into three zones. 1st area was expect to created PAH zone, Il nd area was expect to form soot zone, which is known to generate most soot volume fraction, and III rd area was expect to from soot oxidization zone. Also The temperature along the flame y-axis as a fuel quantity was measured. As a results, we have measured temperature neglecting the effect of soot particles attached to the thermocouple junction, which is close to the nozzle and upstream zone has a unstable flow in co-flow diffusion flame and acquires that the flame y-axis temperature has a uniform temperature in the generated soot volume fraction zone(II nd).