• 제목/요약/키워드: Nozzle velocity ratio

검색결과 148건 처리시간 0.028초

노즐 내부 스월러각과 스월실 형상비 변화가 분무특성에 미치는 영향 (Effect of Internal Swirler Angle and Swirl Chamber Aspect Ratio of Nozzle on Spray Characteristics)

  • 김영진;정홍철;정지원;김덕줄
    • 한국분무공학회지
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    • 제8권4호
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    • pp.39-45
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    • 2003
  • The Objective of this study is to investigate the effect of internal swiller angle and swirl chamber aspect ratio of nozzle on spray characteristics for application of spray system in micro fabrication process. The macro-spray characterictics such as the spray angle and breakup process were obtained by photographs illustrating atomization. The micro-spray characteristics such as droplet size and axial velocity were measured by using PDA with swirler angle and swirl chamber aspect ratio. The swiller angles were $13.5^{\circ},\;27^{\circ},\;and\;40.5^{\circ}$. The swirl chamber aspect ratios were 1.2, 1.6, and 2.0. It was found that the smaller swirl chamber aspect ratio was, the larger axial velocity and drop size were.

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이젝터의 노즐 형상이 흡입유량에 미치는 영향 (Effect of Nozzle Geometry on the Suction Flow Rate in a Ejector)

  • 김유준;박정우;서이수
    • 한국유체기계학회 논문집
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    • 제12권6호
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    • pp.13-17
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    • 2009
  • Ejector is an equipment devised for making use of the low pressure occurring from the fast fluid injection and it is a transportation equipment which can obtain vacuum using the kinetic energy of the fluid. This ejector system is, nowadays, widely used for construction machinery, heavy equipments, the cooling and ventilation of electronic devices and for the various fluid transportation and pumps. In this study, it is attempted to perform a numerical analysis and an experiment to find out the characteristics of fluid quantity, velocity and the pressure distribution of the induction pipe by changing the length and the radius ratio of the nozzle of ejector. From the results, it is investigated that the distributions of velocity and pressure of induction pipe attached are changing with the length and the radius ratio of the nozzle. In addition, it is shown that for the small and large ejector, the efficiency is the maximum when the length of the nozzle arrived to the neck of the ejector, however, if it is installed at below or above the neck the efficiency is rather decreased.

공연비 변화가 MILD 연소 특성에 미치는 영향에 관한 해석적 연구 (A numerical study of the air fuel ratio effect on the combustion characteristics in a MILD combustor)

  • 하지수;김태권;심성훈
    • 대한환경공학회지
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    • 제32권6호
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    • pp.587-592
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    • 2010
  • 연소과정 중에 발생하는 질소산화물을 저감하는 기술인 MILD 연소에 대하여 공연비를 변화시키면서 나타나는 연소 특성을 수치해석을 통하여 연구하였다. 작은 크기의 공기분출속도(10 m/s)에서는 공기가 연소로 내 상부영역까지 침투하지 못한다. 반면에 공기분출속도가 30 m/s인 경우에는 공기유동이 연료유동을 억제하고 상부영역까지 흘러간다. 이론공기량에 해당하는 공기분출속도 18 m/s에서는 10 m/s 보다 상대적으로 상부영역까지 침투하였다. 이러한 유동 양상으로 공기분출속도가 작은 10 m/s에서는 연소반응대가 공기노즐 측에 치우쳐 나타나고 30 m/s에서는 연료노즐 측에 형성되었다. 공기분출속도 16, 18, 20 m/s에서는 공기노즐과 연료노즐 중간 영역에서 연소반응대가 형성되었다. 연소로 내 최대온도와 NOx 생성은 공기분출속도가 10 m/s, 30 m/s인 경우 보다 이론공기량이거나 이에 가까운 16, 18, 20 m/s에서 낮게 나타났다. 본 연구로부터 MILD 연소로에서 이론공기량 조건이 NOx를 저감하는 최적의 조건이라는 것을 밝혔다.

액체용 중량식 유량계 교정장치의 일방향 Diverter 특성연구 (Characteristics of Uni-directional Diverter for Gravimetric Calibration Facility)

  • 남기한;박종호;김홍집
    • 한국유체기계학회 논문집
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    • 제20권1호
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    • pp.59-64
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    • 2017
  • Diverter is an essential element in gravimetric calibration method of flowmeter. Error of diverter are influenced by flow velocity profile of nozzle outlet, motion velocity of diverter and detecting location. That's why, time detection position of diverter is tuned through repetitive test for minimizing error of diverter. Further the diverter must be compared with the other institutions test since the influence on the accuracy of the flow meter used in the test. In this paper, errors (flow velocity profile of nozzle outlet, motion velocity of diverter and detecting location) of diverter are decreased by produced uni-direction diverter and error of gravimetric calibration system is decreased. Uni-direction diverter is calibrated by gravimetric calibration system with precision flowmeter, the flowmeter is calibrated by pipe prover and other institutions and uni-direction diverter is evaluated. Uni-direction diverter is not influenced by flow velocity profile of nozzle outlet, motion velocity of diverter and detecting location. As a result, Uni-direction diverter can calibrate in wider scope since increasing ratio of maximum and minimum flow rate of uni-direction diverter.

에어노즐의 소음저감 대책에 관한 연구 (An Experimental Study on Decrease of Noise for Air Nozzle)

  • 전승태;김종현;이근오
    • 한국안전학회지
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    • 제18권4호
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    • pp.51-56
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    • 2003
  • The goal of this study is to show the way to decrease the noise from air nozzles. The variables of this test are the shapes of air nozzles, air flow rate and the distance between a reflection plate and a nozzle tip. This experiment is aimed to find the most appropriate condition to minimize the noise. These are the results. If diameter ratio is more than 12:8, noise level increases by over 10 dB(A) regradless of the distance between a reflection plate and a nozzle and the existence of a reflection plate. And when $L_2$ of a nozzle is 5mm long, noise level rise relatively highly. So, it is strongly recommended that $L_2$ should be manufactured more than 10mm. The reason for a high intensity noise is that when diameter ratio is more than 12:8, the diameter of a nozzle tip($D_2$) turns small drastically, which increases the air velocity. It is assumed that when the vortes is great around the spots where a nozzle hole is suddenly smaller, great turbulent flow increases much noise.

노즐 형상비에 따른 고압 분사류의 유동특성에 관한 실험적 연구 (Experimental Study on the Flow Characteristics of High Pressurized Jets Depending upon Aspect Ratio)

  • 남궁정환;이상진;김규철;이삼구;노병준
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2002년도 학술대회지
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    • pp.233-236
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    • 2002
  • The high-pressurized spray nozzle is used f3r special washing and cutting with strong impact force. The performance of this nozzle, which focused on spray penetration and radial dispersion, was mainly investigated to maximize the momentum and minimize the flow loss. Hence, our experimental research was conducted by changing the aspect ratio ranging from 0 to 3 with nozzle outlet of 1.1. The spray trajectory far high-pressurized water was experimentally investigated using PDPA diagnostics, which was available at spray downstream region. As the spray at upstream near the nozzle exit did not show the improved disintegration. The results showed empirical correlation with regard to non-dimensional axial velocity distribution, spray penetration, and radial spreading rate with photographic visualization.

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Mesh 스크린을 이용한 충돌제트 열전달 제어에 관한 연구 (Control of Impinging Jet Heat Transfer with Mesh Screens)

  • 조정원;이상준
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2000년도 추계학술대회논문집B
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    • pp.267-271
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    • 2000
  • The local heat transfer rate of an axisymmetric submerged air jet impinging on normal to a heated flat plate was investigated experimentally with varying solidity of mesh screen. The mean velocity and turbulent Intensity profiles of streamwise velocity component were measured using a hot-wire anemometry. The temperature distribution on the heated flat surface was measured with thermocouples. The screen installed in front of the nozzle exit(behind of 35mm) modify the jet flow structure and local heat transfer characteristics. For higher solidity screen, turbulence intensity at core lesion is high and increases the local heat transfer rate at nozzle-to-plate spacings(L/D<6). For larger nozzle-to-plate spacings(L/D>6), however, the turbulent Intensities of all screens tested in this study approach to an asymptotic curve, but the small mean velocity at the core region reduces the local heat transfer rate for high solidity screens.

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동축류 마일드 연소기를 적용한 마일드 연소 형성 연구 (Formation of MILD Combustion using Co-flow MILD Combustor)

  • 이필형;황상순
    • 한국연소학회지
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    • 제22권3호
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    • pp.8-16
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    • 2017
  • MILD combustion was first developed to suppress thermal NOx formation in combustor for heating industrial furnaces. In this paper, the effect of co-flow MILD combustor geometry and operating conditions on the formation of MILD combustion was analyzed using 3 dimensional numerical simulation. The numerical simulations were carried out using ANSYS Fluent. The combustion and turbulence flow was modeled using the Eddy Dissipation Concept(EDC) model and realizable $k-{\varepsilon}$ model respectively. The results show that the high temperature region and average temperature decreased due to an increase in the air velocity and decrease the wall thickness of fuel nozzle. In particular, the MILD combustion flame was found to be stable with a combustion flame region at fuel velocity 10 m/s, air velocity 20 m/s, fuel nozzle thickness 1.0 mm, equivalence ratio 0.9, and outlet area ratio 40%.

Pilot급 산소 MILD 연소에 관한 실험 및 수치해석적 연구 (An Experimental and Numerical Study on the Oxy-MILD Combustion at Pilot Scale Heating Capacity)

  • 차천륜;이호연;황상순
    • 설비공학논문집
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    • 제28권7호
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    • pp.275-282
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    • 2016
  • MILD (Moderate and Intense Low-oxygen Dilution) combustion using oxygen as an oxidizer is considered as one of the most promising combustion technologies for high energy efficiency and for reducing nitrogen oxide and carbon dioxide emissions. In order to investigate the effects of nozzle angle and oxygen velocity conditions on the formation of oxygen-MILD combustion, numerical and experimental approaches were performed in this study. The numerical results showed that the recirculation ratio ($K_V$), which is an important parameter for performing MILD combustion, was increased in the main reaction zone when the nozzle angle was changed from 0 degrees to 15 degrees. Also, it was observed that a low and uniform temperature distribution was achieved at an oxygen velocity of 400 m/s. The perfectly invisible oxy-MILD flame was observed experimentally under the condition of a nozzle angle of $10^{\circ}$ and an oxygen velocity of 400 m/s. Moreover, the NOx emission limit was satisfied with NOx regulation of less than 80 ppm.

PIV를 이용한 이중 충돌제트의 유동 특성 (Flow Characteristics of Dual Impinging Jets using PIV)

  • 김동건;권순홍;정성원;박종민;최원식;김종순;권순구
    • 한국기계가공학회지
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    • 제10권6호
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    • pp.102-108
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    • 2011
  • The flow characteristics of unventilated dual impinging jets were experimentally investigated. Two nozzles with an aspect ratio of 20 were separated by 6 nozzle widths. The Reynolds number based on nozzle width and nozzle exit velocity was set to 5,000. A Particle Image Velocimetry (PIV) was used to measure turbulent velocity components. It was found that, when an impingement plate was installed in the converging region, there was a stagnation region in the inner area between nozzles. However, when it was installed in the combined region, both jets were merged and collided into the plate, showing single-jet characteristics. In addition, at a dual impinging jet, as the distance between a nozzle and an impingement plate decreased, the spanwise turbulent intensity at the plate increased.