• Title/Summary/Keyword: micro-wave

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기존선 터널 출구 미기압파 저감을 위한 터널 후드의 수치 해석적 연구 (Numerical Study of Tunnel Hood to Reduce Micro-Pressure Wave on Conventional Railways)

  • 김병열;권혁빈;윤수환;구요천;고태환;이동호
    • 한국철도학회논문집
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    • 제8권6호
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    • pp.513-519
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    • 2005
  • The Korean Tilting Train eXpress may produced a strong micro-pressure wave in tunnel exit because of large train/tunnel area ration of conventional railways. This micro-pressure wave causes an impulsive noise which is a serious environmental noise pollution near tunnel exit. Tunnel hood can be the method of reducing the micro-pressure wave in tunnel exit. Therefore, parametric studies for tunnel hood are performed with respect to the hood length and size to investigate the effects of the tunnel hood. Also, axi-symmetric unsteady compressible flow solver was used to analyze train-tunnel relative motion. According to the result of numerical analysis, the maximum micro-pressure wave in tunnel exit is reduced by 56% throughout the hood establishment on conventional railways.

Numerical Visualization of the Unsteady Shock Wave Flow Field in Micro Shock Tube

  • Arun, Kumar R.;Kim, Heuy-Dong
    • 한국가시화정보학회지
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    • 제10권1호
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    • pp.40-46
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    • 2012
  • Recently micro shock tube is extensively being used in many diverse fields of engineering applications but the detailed flow physics involved in it is hardly known due to high Knudsen number and strong compressibility effects. Unlike the macro shock tube, the surface area to volume ratio for a micro shock tube is very large. This unique effect brings many complexities into the flow physics that makes the micro shock tube different compared with the macro shock tube. In micro shock tube, the inter- molecular forces of working gas can play an important role in specifying the flow characteristics of the unsteady shock wave flow which is essentially generated in all kinds of shock tubes. In the present study, a CFD method was used to predict and visualize the unsteady shock wave flows using the unsteady compressible Navier-Stokes equations, furnished with the no-slip and slip wall boundary conditions. Maxwell's slip equations were used to mathematically model the shock movement at high Knudsen number. The present CFD results show that the propagation speed of the shock wave is directly proportional to the initial pressure and diameter of micro shock tube.

Clearance Variation Effects on Micro Wave Rotor Operation

  • Okamoto, Koji;Yamaguchi, Kazuo
    • 한국추진공학회:학술대회논문집
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    • 한국추진공학회 2008년 영문 학술대회
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    • pp.855-861
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    • 2008
  • Micro wave rotor is expected to improve the performance of micro gas turbines drastically. In the present study, a micro wave rotor test rig was designed and built for micro gas turbines of 1-10 kW output range, and its test runs were carried out with cold air flow. In the previous experiments, the leakage loss had large influence on its operating condition. Therefore, abradable coating was applied on the end walls to achieve the operation with zero clearance for leakage reduction and its improvement on the operating condition is discussed in this study.

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고속주행시 철도터널내 공기압 특성에 관한 기초연구 - 미기압(MPW)을 중심으로 (A study on the characteristics for aerodynamics at high speed in railway tunnels - focused on the micro pressure wave)

  • 김효규;최판규;유지오
    • 한국터널지하공간학회 논문집
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    • 제16권2호
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    • pp.249-260
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    • 2014
  • 열차가 고속으로 터널을 진입할 때 압축파가 발생하게 된다. 이 압축파가 터널 출구부에 도달하면 일부는 외부로 방출되고 일부는 팽창파의 형태로 반사되어 터널내부로 전파된다. 이러한 파는 충격파의 형태로 외부로 방출되는데, 이를 미기압(micro pressure wave)이라고 한다. 미기압파는 터널 출구부에 소음 및 진동문제를 일으키며, 이 현상이 클수록 민가 및 주변 유리창에 손상과 거주자의 불안을 일으키는 원인이 된다. 따라서 고속철도 건설을 위해서는 미기압에 대한 대책과 이에 대한 예측이 필요한 실정이다. 이에 본 연구는 운영중인 터널에서의 미기압 측정사례와 터널내 압력기울기에 대한 수치해석을 통하여, 차량의 전두부 형상 및 터널 갱구부 형상에 따른 영향을 분석하였다. 그 결과로, 본 연구에서는 미기압파의 강도를 예측하는 방법을 제시하였으며, 이를 통해서 터널 연장과 단면적에 따른 미기압 강도를 해석하였다.

후드를 이용한 협소 터널 미기압파 감소 효과에 대한 수치적 연구 (Numerical Study of effects on micro-pressure wave reduction by a hood on a narrow tunnel)

  • 윤수환;김병열;구요천;이동호;권혁빈;고태환
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2005년도 추계학술대회 논문집
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    • pp.872-877
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    • 2005
  • The train entry into a tunnel generates a strong compression wave in the tunnel. The high amplitude of compression wave causes high pressure gradients that are responsible for both the aural discomfort of passengers and the impulsive acoustical wave called the miro-pressure wave. This paper provides a numerical study on effects of hood for micro'-'pressure wave reduction. An axisymmetric numerical solver, considering the cross sectional area of Korean Tilting Train eXpress, is used for a transient flow field in the tunnel. Results show that the micro-pressure wave is able to be reduced by a hood. In this results, the maximum reduction of micro--pressure wave is shown at 2L(length), 1.35D(diameter) hood around $56\%$ against the non-hood case.

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공기저항과 미기압파 저감을 위한 고속전철 전두부형상의 최적화설계 (Nose Shape Optimization of the High-speed Train to Reduce the Aerodynamic drag and Micro-pressure Wave)

  • 권혁빈;김유신;이동호;김문상
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2001년도 춘계학술대회논문집E
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    • pp.373-379
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    • 2001
  • When a train runs into a tunnel at high-speed, aerodynamic drag suddenly increases and the booming noise is generated at the exit of tunnel. The noise shape is very important to reduce the aerodynamic drag in tunnel as well as on open ground, and the micro-pressure wave that is a source of booming noise is dependent on nose shape, especially on area distribution. In this study, the nose shape has been optimized employing the response surface methodology and the axi-symmetric compressible Navier-Stokes equations. The optimal designs have been executed imposing various conditions of the aerodynamic drag and the micro-pressure wave on object functions. The results show that the multi-objective design was successful to decrease micro-pressure wave and aerodynamic drag of trains.

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Double bonded Cooper-Naghdi micro sandwich cylindrical shells with porous core and CNTRC face sheets: Wave propagation solution

  • Yazdani, Raziye;Mohammadimehr, Mehdi
    • Computers and Concrete
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    • 제24권6호
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    • pp.499-511
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    • 2019
  • In this paper, wave propagation of double-bonded Cooper-Naghdi micro sandwich cylindrical shells with porous core and carbon nanotube reinforced composite (CNTRC) face sheets are investigated subjected to multi-physical loadings with temperature dependent material properties. The governing equations of motion are derived by Hamilton's principle. Then, the influences of various parameters such as wave number, CNT volume fraction, temperature change, Skempton coefficient, material length scale parameter, porosity coefficient on the phase velocity of double-bonded micro sandwich shell are taken into account. It is seen that by increasing of Skempton coefficient, the phase velocity decreases for higher wave number and the results become approximately the constant. Also, by increasing of the material length scale parameter, the cut of frequency increases, because the stiffness of micro structure increases. The obtained results for this article can be used to detect, locate and quantify crack.

미기압파 저감을 위한 고속전철 열차-터널 조건의 근사최적설계 (Approximate Optimization of High-speed Train Shape and Tunnel Condition to Reduce the Micro-pressure Wave)

  • 김정희;이종수;권혁빈
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2004년도 춘계학술대회
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    • pp.1023-1028
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    • 2004
  • A micro-pressure wave is generated by the high-speed train which enters a tunnel, and it causes explosive noise and vibration at the exit. It is known that train speed, train-tunnel area ratio, nose slenderness and nose shape mainly influence on generating micro-pressure wave. So it is required to minimize it by searching optimal values of such train shape factors and tunnel condition. In this study, response surface model, one of approximation models, is used to perform optimization effectively and analyze sensitivity of design variables. Owen's randomized orthogonal array and D-optimal Design are used to construct response surface model. In order to increase accuracy of model, stepwise regression is selected. Finally SQP(Sequential Quadratic Programming) optimization algorithm is used to minimize the maximum micro-pressure wave by using built approximation model.

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마이크로 웨이브 탐색기의 김발 구조물 진동해석(I) : 실험모드해석 (Vibration Analysis for a Gimbal Structure of a Micro Wave Seeker(I) : Experimental Modal Analysis)

  • 이석규;장영배;이진구;권병현;박영필
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2000년도 춘계학술대회논문집
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    • pp.508-513
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    • 2000
  • Micro wave seeker detects micro wave signal reflecting from a object and modifies the angle of a antenna in the direction of a reflecting signal. Gimbal structure makes a motion in the direction of an elevation axis and an azimuth axis and change the direction of a missile toward a object. As before, Micro wave seeker is a important part of a missile. Especially, gimbal structure is designed to resist a external force generated by a strong propelling power. For that reason, it is essential to analyze a vibration feature of gimbal structure. In this paper, we analyze dynamic characteristics of a gimbal structure of a micro wave seeker. And we measure frequency response functions of a gimbal structure in order to investigate the effect of a pre-load on bearing.

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마이크로 웨이브 탐색기의 김발 구조물 진동해석(II) : 유한요소해석 (Vibration Analysis for Gimbal Structure of a Micro Wave Seeker(II) : Finite Element Analysis)

  • 장영배;전홍걸;이석규;윤재윤;박영필
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2000년도 춘계학술대회논문집
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    • pp.514-518
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    • 2000
  • Micro wave seeker consists of a gimbal structure, a antenna and many RF parts. And Missile's propelling powers excite a gimbal structure, a antenna and many RF parts. Therefore, We must inquire into external forces to act on a micro wave seeker before everything. We must inquire into design parameters and then estimate dynamic characteristics of a gimbal structure with a finite element model to reflect part's characteristics for design for a gimbal structure in consideration of vibration features. In this paper, a gimbal structure of a micro wave seeker is modeled in finite element method and then updated by using the experimental modal data. Before we make a finite element model of a gimbal structure of a micro wave seeker, we make a finite element model of a sub-structure and compare with the experimental modal data.

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