• Title/Summary/Keyword: Fuel Nozzle Position

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A Numerical Study of the Combustion Characteristics in a MILD Combustor with the Change of the Fuel and Air Nozzle Position and Air Mass Flow Rate (연료 및 공기 노즐 위치와 공기 유량 변화에 따른 MILD 연소 특성에 관한 해석적 연구)

  • Kim, Tae-Kwon;Shim, Sung-Hoon;Chang, Huyk-Sang;Ha, Ji-Soo
    • Journal of Korean Society of Environmental Engineers
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    • v.33 no.5
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    • pp.325-331
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    • 2011
  • A numerical analysis of reactive flow in a MILD(Moderate and Intense Low oxygen Dilution) combustor is accomplished to elucidate the characteristics of combustion phenomena in the furnace with the change of fuel and air nozzle position and air mass flow rate. For the case with the fuel nozzle located near center position of combustor, the reaction zone started at the fuel nozzle and had inclined shape toward combustor wall when the air mass flow rate was relatively smaller. On the other hand, the end of reaction zone moved toward center of combustor from combustor wall when the air flow rate was relatively larger. For the case with the air nozzle located near center position of combustor, the reaction zone started at the fuel nozzle and had inclined shape toward combustor wall when the air mass flow rate was relatively small, which was similar as the previous case with smaller air mass flow rate. On the other hand, the end of reaction zone moved toward combustor wall when the air flow rate was relatively larger. The maximum temperature increased as the air mass flow rate increasing for both cases, and the concentration of thermal NOx increased also from the previous reason of temperature characteristics. The concentration of NOx for the case with the air nozzle located near center position of combustor was considerably smaller than that for the case with the fuel nozzle located near center position of combustor. From the present study, the case with the air nozzle located near center position of combustor and theoretical air flow rate was the most effective condition for the NOx reduction and perfect combustion.

Calculation of the internal flow in a fuel nozzle (연료노즐 내부유동 현상의 수치해석)

  • Gu, Ja-Ye;Park, Jang-Hyeok;O, Du-Seok;Jeong, Hong-Cheol
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.20 no.6
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    • pp.1971-1982
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    • 1996
  • The breakup of liquid jet is the result of competing, unstable hydrodynamic forces acting on the liquid jet as it exit the nozzle. The nozzle geometry and up-stream injection conditions affect the characteristics of flow inside the nozzle, such as turbulence and cavitation bubbles. A set of calculation of the internal flow in a single hole type nozzle were performed using a two dimensional flow simulation under different nozzle geometry and up-stream flow conditions. The calculation showed that the turbulent intensity and discharge coefficient are related to needle position. The diesel nozzle with sharp inlet under actual engine condition has possibility of cavitation, but round inlet nozzle has no possibility of cavitation.

Soot and PAH Formation Characteristic of Concentric Co-Flow Diffusion Flames (이중동축류 확산화염에서의 매연 및 PAH 생성 특성)

  • Lee, Won-Nam;Nam, Youn-Woo
    • Transactions of the Korean Society of Automotive Engineers
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    • v.13 no.2
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    • pp.178-185
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    • 2005
  • The synergistic effect of ethylene/propane mixture on soot formation is studied experimentally using a concentric co-flow diffusion burner, which provides the stratified fuel mixture. The soot volume fraction, soot particle diameter, number density and PAH concentrations are measured with various fuel supply configurations and compared to the homogeneously mixed case. When propane is supplied through the inner nozzle, an increase of soot formation is observed. However, when propane is supplied through the outer nozzle, a decrease is observed. The reaction path of PAH's formed from the pyrolysis process of propane is likely to be responsible to the observed differences. When propane is supplied through the outer nozzle, PAH's are formed in the relatively near oxidation region and exposed to the oxidization environment; on the other hand, when propane is supplied through the inner nozzle, PAH's are not likely to be oxidized and thus get involved in soot formation process. The synergistic effect in ethylene/propane diffusion flames is found to be affected not only by the com position of the mixture but also by the way of mixing.

Experimental Study on the Fire Extinguishing Characteristics of Water Mist System (미분무수 소화설비의 소화특성 실험)

  • Hwang, Won-Jun;Kim, Hwang-Jin;Oh, Kyu-Hyung;Lee, Sung-Eun
    • Fire Science and Engineering
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    • v.23 no.2
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    • pp.78-84
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    • 2009
  • We carried out fire extinguishing experiments with three kinds of water mist nozzle system. Fire extinguishing experiment according to installed nozzle height and fuel pan location was done. And fire extinguishing performance was compared with plain water and foam agent mixed solution. Water mist nozzle height was varied with 4m, 3.5m and 3m and position of fuel fan was varied 0.5m and 1m from the center of water mist nozzle. Foam agent that used in this experiment is 3% type of AFFF (Aqueous Film Forming Foam) solution. Experimental result showed the door opening effect was little. Fire extinguishing performance of foam agent mixture water mist was better than the plain water mist only.

A Study on the Flow Entrainment Characteristics of a Coaxial Nozzle Used in a MILD Combustor with the Change of Nozzle Position and Flow Condition (MILD 연소로에서 노즐의 위치와 유동 조건에 따른 유입량 특성에 관한 연구)

  • Shim, Sung-Hoon;Ha, Ji-Soo
    • Journal of Korean Society of Environmental Engineers
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    • v.34 no.2
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    • pp.103-108
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    • 2012
  • A MILD (Moderate and Intense Low oxygen Dilution) combustor decreases NOx formation effectively during the combustion process and NOx formation is affected significantly by the exhaust gas entrainment rate toward fuel and air. The present study focused on the new MILD combustor, which has coaxial cylindrical tube. The outside tube of the new MILD combustor corresponds to the exhaust gas passage and the inner side tube is the furnace passage. The connection pipe is set between the outer side and the inner side tubes and coaxial air nozzle is inserted at the center of the connection pipe. A numerical analysis is accomplished to elucidate the characteristics of exhaust gas entrainment toward the inner furnace with the changes of air nozzle exit velocity, nozzle diameter, nozzle exit position and exhaust gas side pressure. The entrainment rate is proportional to the square root of air nozzle exit velocity and negatively proportional to the pressure difference between the exhaust gas side and furnace side pressures. The effect of air nozzle exit position is not considerable on the exhaust gas entrainment.

Design and Analysis of Two-Directional Regenerative Cooling Passages for Liquid Rocket Nozzle (액체로켓연소실의 양 방향 재생냉각유로 설계/해석)

  • Kim, Seong-Ku;Kim, Jong-Gyu;Han, Yeoung-Min;Choi, Hwan-Seok
    • Aerospace Engineering and Technology
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    • v.7 no.1
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    • pp.129-135
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    • 2008
  • The 30 tonf-class liquid rocket combustor currently being developed is designed to connect the fuel feeding line at a middle position of the supersonic nozzle in order to reduce both pressure loss in the regenerative cooling passage and overall envelope of the thrust chamber in spite of increase in design complexity. To verify the design of cooling passages including fuel ring, connecting holes, two-directional cooling channels and collectors, numerical analysis has been performed.

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The Effect of Ambient Gas Density on the Development of Impinging Diesel Spray (분무실 밀도 변화가 충돌 디젤분무 특성에 미치는 영향)

  • Kim, J.H.;Lee, B.S.;Koo, J.Y.
    • Journal of ILASS-Korea
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    • v.4 no.2
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    • pp.40-46
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    • 1999
  • Experimental investigation of unsteady impinging diesel spray on the flat plate have been carried out using high speed camera and Malvern system. The density ratios of ambient gas to diesel fuel were varied using $N_2$ and Ar gas in the case of 14.9, 21.2, 28.4, 35.1, 40.4, and 50.1. With the increase of gas density ratio, the radial penetration is decreased due to the resistance of the ambient gas. With the increase of the gas density ratio and the distance between nozzle tip and flat plate, the height of spray is increased due to the entrance and circulation. With the increase of gas density ratio, SMD is decreased on the nearby position at the center of flat plate, but SMD is increased on the far position. As the distance between nozzle tip and flat plate is increased, SMD is always decreased.

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Spray Charateristics of Water/Oil Emulsified Fuel in Pressure-Swirl Nozzle (압력선회노즐에서 물-기름 유화연료의 분무특성)

  • Rhim, J.H.;No, S.Y.
    • Journal of ILASS-Korea
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    • v.5 no.1
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    • pp.5-12
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    • 2000
  • The beneficial aspects of applying emulsion fuels to combustion systems may be due to the changes of fuel properties which lead to the enhanced atomization characteristics. The spray characteristics of water/oil emulsified fuel injected from the pressure-swirl(simplex) atomizer using for oil burner were investigated. Four different water contents from 10 to 40 % by volume at 10% increment were prepared by mixing with the different contents of surfactants. Total amount of surfactant used was varied from 1 to 3 % by volume. This study demonstrates the influence of water and surfactant contents of emulsified fuel, injection pressure on the spray characteristics, i.e. Sauter mean diameter(SMD) and spray angle. The drop size distribution of the emulsified fuel spray was measured with a Malvem particle sizer. In order to measure the spray angle, the digital image processing was employed by capturing multiple images of the spray with 3-CCD digital video camera. It was evident that the addition of water and surfactant changes fuel properties which are the key parameters influencing the atomization of the spray. The increase in surfactant content results in the decrease of SMD and the increase in spray angle. The droplets decease with increase in injection pressure, but the influence of injection pressure in this experimental condition was less important than expected. The more viscous fuel with the increase of water content exhibits the larger droplets in the centerline of the spray, and the less viscous fuel in the outer edges of the spray. The increase in axial position from the nozzle causes the spray angle to decrease. The spray angle decreases with increase in water content. This is due to increase in viscosity with increase in water content.

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Emissions and Combustion Dynamics with Fuel Injection Position for Low-swirl Nozzles of Gas Turbine Combustor (복합발전 가스터빈 연소기용 저선회 노즐의 연료 분사 위치에 따른 배기배출 및 연소진동 특성)

  • Jeongjae, Hwang;Won June, Lee;Min Kuk, Kim;Han Seok, Kim
    • Journal of the Korean Institute of Gas
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    • v.26 no.6
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    • pp.37-44
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    • 2022
  • In this study, two low-swirl nozzles with the same SN (Swirl Number) but different mass ratio (m) of the core part and the swirler part were designed to perform an atmospheric pressure combustion test. For each nozzle, a combustion test was conducted according to the adiabatic flame temperature, and the flame structure, emissions, and combustion instability mode were identified. Although the flame structure was significantly different, the CO emission was similar, and the NOx emission was also more related to combustion dynamics than the flame structure. Combustion dynamics and NOx emission were identified while adjusting the convection delay time by changing the position of the fuel injection nozzle. It was confirmed that when the convection delay time is in the region of (3+4n)/4T±1/4T (n=0,1,2,...), the combustion instability is strong, and in the opposite case, the combustion instability is very weak.

Analysis of Three Dimensional Liquid Ramjet Engine with Spray and Combustion (액체 램제트 엔진의 3차원 분무 및 연소 반응 해석)

  • 오대환;임상규;손창현;이충원
    • Journal of the Korean Society of Propulsion Engineers
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    • v.3 no.2
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    • pp.18-24
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    • 1999
  • Liquid ramjet combustor is closely connected with complex phenomena due to a series of processes such as intake air, spray, mixing, and combustion. The present numerical experiments were peformed to investigate these flow characteristics for two and three dimensional liquid ramjet combustor. Grid system was made with three domains: intake region where air is supplied and fuel is injected, combustor and nozzle region, and exit atmosphere region. The numerical results showed that two and three dimensional flow patterns in recirculation region of combustor were significantly different each other and spray model was necessary to predict correctly the chemical reaction flow characteristics. Numerically examined for two different location of fuel injector, one is located on the bottom position of curved intake and the other is located on the top position. We found that bottom position of fuel injector is better than top position because fuel influx to the recirculation region which is need to sustain chemical reaction is more than the latter.

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