• 제목/요약/키워드: 보텍스튜브

검색결과 19건 처리시간 0.029초

저압용 보텍스튜브의 노즐면적비에 따른 에너지 분리특성에 관한 실험적 연구 (An Experimental Study on the Energy Separation in the Ratio of Nozzle Area of a tow Pressure Vortex Tube)

  • 오동진;최정원
    • 에너지공학
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    • 제13권1호
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    • pp.34-39
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    • 2004
  • 본 논문에서는 압축공기를 작동매체로 한 저압용 보텍스튜브에 대한 에너지 분리과정을 상세히 연구하였다 먼저 보텍스튜브에서 에너지 분리되어 나오는 온공기와 냉공기의 온도변화에 대하여 실험하였고, 보텍스튜브의 안쪽표면의 최대벽면온도 변화와 보텍스튜브 내의 온도분포를 통하여 보텍스튜브 내 유동장에서의 정체점의 위치에 대한 유용한 정보를 얻게 되었다. 이를 바탕으로 보텍스튜브의 노즐면적비와, 오리피스의 크기에 따른 에너지분리 과정 등을 실험을 통하여 알아보았다. 이러한 기하학적 형상의 변화실험을 통하여 저압용?대형 보텍스튜브의 에너지 분리과정이 고압형\ulcorner소형 보텍스튜브 보다 에너지 분리효과가 증대됨으로 인하여 최적의 노즐면적비와 오리피스지름비가 차이가 있음을 알 수 있었다.

보텍스튜브를 이용한 충돌냉각의 실험적 연구 (An Experimental Investigation of Jet Impingement Cooling Using the Vortex Tube)

  • 신운철;김창수;배신철
    • 대한기계학회논문집B
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    • 제31권1호
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    • pp.8-15
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    • 2007
  • The jet impingement cooling characteristics are investigated experimentally. The study is motivated by the potential application of local hot spot cooling by means of the vortex tube. The purposes of this research are to examine the effect of the nozzle-block spacing and flow rate. The results of jet through vortex tube is compared with ones of circular Jet. Flow visualization by the smoke-wire technique is also performed to investigate the flow structure. As the nozzle-block spacing is increased and flow rate decreased, the cooling effect of the Jet through the vortex tube decreases mere remarkably than that of the circular jet. So the cooling effect for the jet through the vortex tube is higher than that for the circular jet at $H/D{\leq}3$, $Q{\geq}10m^3/h$.

보텍스튜브에서 랭퀴-힐쉬효과와 줄-톰슨효과가 에너지분리에 미치는 영향 (The Influence of Ranque-Hilsch Effect and Joule-Thomson Effect to Energy Separation in a Vortex Tube)

  • 유갑종;방창훈;김병하
    • 설비공학논문집
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    • 제12권8호
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    • pp.703-710
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    • 2000
  • Energy separation characteristic occurring in a counterflow vortex tube was studied experimentally, where air, $C_2$, and R22 were used as working fluids. The experiments were carried out with pressure ratio from 3 to 8 and cold mass fraction(y) from 0.1 to 0.9. As results, Ranque-Hilsch effect showed different results from adiabatic expansion process. Temperature difference in vortex tube outlet was affected by Joule-Thomson effect as well as Ranque-Hilsch effect. The more effective the energy separation was, the more increased the entropy in the cold oulet of vortex tube was.

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보텍스튜브의 노즐홀수가 에너지분리에 미치는 영향 (The effect of the number of nozzle holes on the energy separation)

  • 유갑종;이진호
    • 설비공학논문집
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    • 제11권5호
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    • pp.692-699
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    • 1999
  • The vortex tube is a sample device for separating a compressed gaseous fluid stream into two flows of high and low temperature without any chemical reactions. The phenomena of energy separation through the vortex tube were investigated experimentally, to see the effects of the number of nozzle holes on the energy separation. The experiment was carried out with the number of nozzle holes from 1 to 10 by varying inlet pressure and cold mass fraction. The experimental results were indicated that the effective number of nozzle holes for the best cooling performance was found as 4. Also, to find effective use in a given operation conditions, the temperature difference of cold air and the cooling capacity of vortex tube was compared. The result is that cooling capacity was more important than temperature difference of cold air.

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튜브의 열전도도와 튜브 외면에서의 대류열전달이 보텍스튜브의 에너지 분리에 미치는 영향 (The Effect of the Thermal Conductivity of a Tube and the Convective Heat Transfer on the Outer Surface of a Tube on the Energy Separation in Vortex Tubes)

  • 유갑중;이병화;최병철
    • 설비공학논문집
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    • 제13권9호
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    • pp.845-852
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    • 2001
  • The phenomena of energy separation in vortex tubes was investigated experimentally to see the effects of the conductivity of a tube and convective heat transfer on the outer surface of a tube. The experiment was carried out with different conductivity (pyrex, stainless steel and copper) of a tube and three kinds of convective heat transfer modes (adiabatic condition, natural convection (air) and forced convection (water) on the outer surface of a tube. the results were obtained that hot exit fluid temperature was highly affected by a change of conductivity of a tube when the outer surface was cooled by the forced convection of water. However, the cold exit temperature was little affected by heat transfer modes on the outer surface in vortex tubes.

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보텍스튜브 성능향상을 위한 유입노즐 조건에 관한 연구 (Inflow Nozzle Conditions for Improving Vortex Tube Performance)

  • 최훈기;유근종;임윤승
    • 한국기계가공학회지
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    • 제17권2호
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    • pp.68-76
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    • 2018
  • A vortex tube is a simple energy separating device that splits a compressed air stream into a cold and hot stream without any external energy supply or chemical reactions. The efforts of many researchers and designers have been focused on improvement of vortex tube efficiency by changing the parameters affecting vortex tube operation. The effective parameters are nozzle specifications and inflow pressure conditions. Effects of different nozzle cross-sectional area and number of nozzles are evaluated by computational fluid dynamics (CFD) analysis. In this study, CFD analysis of 3-D steady state and turbulent flow through a vortex tube was performed. We investigated the cold air mass flow rate, the cold air temperature, and the cold air heat transfer rate behavior of a vortex tube by utilizing seven straight nozzles and four inflow pressure conditions.

대향류형 보텍스 튜브에서의 형상 변화에 따른 온도 분리에 관한 실험적 연구(I) (An Experimental Study on the Characteristics of Temperature Separation for the Formal Change of Counterflow Type Vortex Tube)

  • 황승식;전운학;김종철;이희상
    • 한국자동차공학회논문집
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    • 제9권1호
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    • pp.84-93
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    • 2001
  • The aim of this study is to provide fundamental informations that make it possible to use a cool stream and a hot stream simultaneously. We changed the pressure of compressed air that flows into a tube, the inner diameter of orifice that a cold stream exits, and the mass flow rate ratio. And in each case, we measured the temperature of a cold stream and a hot stream in each exit of a tube. Also we measured the axial temperature distribution and the radial temperature distribution in internal space of a tube. From the study, following conclusive remarks can be made. Average flow rate that flows into a tube is in proportion to square root of inlet pressure. As inlet pressure increases axial and radial temperature distribution in the inner space of vortex-tube increase. As mass flow rate ratio change, separation point moves.

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Ranque-Hilsch 보텍스 튜브의 에너지 분리 과정에 대한 수치적 고찰 (Numerical Investigation of Energy Separation Process in a Ranque-Hilsch Vortex Tube)

  • 손창호
    • 설비공학논문집
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    • 제20권1호
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    • pp.42-48
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    • 2008
  • A numerical simulation has been conducted to investigate the physics of the Ranque-Hilsch vortex tube. Even though currently available turbulent models cannot predict such complex flow accurately, it was expected that the simulation would enlighten underlying physics qualitatively. The balance of energy on a fluid particle moving along some typical streamlines through shear work and heat transfer was investigated to explain the physics of energy separation process. It was found that the heat transfer cancels major part of the energy separation done by shear work. It was also found that the most of energy separation occur near inlet and hot outlet.

보텍스 생성실 지름비가 에너지 분리에 미치는 영향 (The Effect of a Vortex Chamber Diameter Ratio on Energy Separation)

  • 유갑종;이병화;최인수
    • 설비공학논문집
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    • 제13권8호
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    • pp.667-673
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    • 2001
  • As an alternative cooling method to reduce environmental hazard, vortex tubes have been studied for energy separation into cold and hot streams. Hence, the experiments were carried out systematically to find the best ratio of vortex chamber diameter to tube diameter. Also, the work was don to investigate how inlet pressure and geometric ratios of vortex tube affected temperature differences at tow needs as ell as cooling capacity and cooling efficiency. The result showed that the maximum temperature differences at the both ends and the maximum cooling efficiency were obtained when the ratio of vortex chamber diameter was about 1.45, while the inlet pressure ws not higher than 0.7 MPa.

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대향류형 보텍스 튜브의 노즐형상 변화011 따른 튜브 내부의 온도분포에 관한 실험적 연구 (An Experimental Study on the Characteristics of Temperature Distribution in Internal Space of a Tube for the Formal Change of Counterflow Type Vortex Tube)

  • 황승식
    • 한국자동차공학회논문집
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    • 제10권4호
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    • pp.69-76
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    • 2002
  • The aim of this study is to provide fundamental informations that make it possible to use a cool stream and a hot stream simultaneously. We changed the pressure of compressed air that flows into a tube, the inner diameter of orifice that a cold stream exits, and the mass flow rate ratio. And in each case, we measured the temperature of a cold stream and a hot stream in each exit of a tube. Also we measured the axial and the radial temperature distribution in internal spare of a tube. From the study, fellowing conclusive remarks 7an be made. First, As the number of nozzles increase, separation point move into the hot exit. Second, When we use guide vane type nozzle, the axial temperature distribution constant over the 0.75 of air mass flow rate radio. Third, When we use Spiral type nozzle, axial and radial temperature distribution in the inner space is higher than another nozzle. Fourth, Axial and radial temperature distribution in the inner space vortex-tube is determined by separation point. And separation point is moved by changing of air mass flow rate ratio. At last, A heating apparatus is possible far vortex-tube to use.