• 제목/요약/키워드: Wave Diffraction

검색결과 478건 처리시간 0.026초

반무한방파제 전면과 후면에서 회절파의 공간적인 변화 (Spatial Variation of Diffracting Wave Amplitudes on the Front and Lee Sides of the Semi-Infinite Breakwater)

  • 정재상;이창훈
    • 한국해안·해양공학회논문집
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    • 제32권4호
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    • pp.203-210
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    • 2020
  • 반무한방파제 전면 및 후면에서 회절파 진폭의 공간적인 변화에 대해 Penney and Price(1952)의 해석해를 활용하여 분석하였다. 방파제 전면에 회절파의 영향으로 입사파와 반사파를 합친 중복파의 파력보다 더 큰 파력이 발생한다. 좀 자세히 알아보면, 회절파는 방파제의 선단 (x, y) = (0, 0)을 기존으로 동심원 형태로 위상 변화가 발생하는 반면 입사파와 반사파는 평면 형태로 위상 변화가 발생한다. 따라서, 입사파(또는 반사파)와 회절파가 중첩에 의한 파의 진폭은 에너지 불연속선에서부터 떨어진 곳에서는 항상 요동치게 된다. 방파제 전면 및 후면 (x, y) = (0, y) 지점은 회절파 파봉선을 따라 에너지 불연속선 지점에서부터 y(π/2 - β) 만큼 떨어져 있다. 회절파 에너지의 감쇠의 정도는 회절파 파봉선을 따라 에너지 불연속선 지점에서 떨어진 거리에 비례한다. 따라서, 방파제 전면 및 후면(x, y) = (0, y) 지점에서의 회절파의 진폭은 y(π/2 - β)의 제곱근에 반비례한다.

Numerical analysis of a hybrid substructure for offshore wind turbines

  • Park, Min-Su;Jeong, Youn-Ju;You, Young-Jun;Lee, Du-Ho;Kim, Byeong-Cheol
    • Ocean Systems Engineering
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    • 제4권3호
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    • pp.169-183
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    • 2014
  • For the reliable design of substructure supporting offshore wind turbines it is very important to reduce the effects of wave forces. Since the substructure is strongly influenced by the effects of wave forces as the size of substructure increases. In the present study, the hybrid substructure with multi-cylinder is newly suggested to reduce the effects of wave forces. Using diffraction theory the scattering waves in a fluid region are expressed by an Eigenfunction expansion method with three dimensional potential theory to calculate the wave force acting on the hybrid substructure. The wave force and wave run-up acting on the hybrid substructure is presented to examine the water wave interaction according to the variation of cylindrical size and the distance among cylinders. It is found that the suggested hybrid substructure with multi-cylinder is very useful to reduce the effects of wave forces acting on the substructure for offshore wind turbines.

The Prediction of Wave Groups within a Harbor to Assist Ship Operation at the Entrance

  • Cho Ik-Soon
    • 한국항해항만학회지
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    • 제30권2호
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    • pp.125-130
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    • 2006
  • Waves, which are the main source of ship motions in a seaway, considerably affect the performance of a ship. The study of waves and their impact on ship motions within harbors is an important aspect of the design and operation of harbors. The prediction of incoming groups of waves is particularly important for evaluating ship motion within a harbor. Such a prediction makes it possible to evaluate ship safety more accurately. The wave transformation model reported here is applied to actual ports based on Boussinesq wave equations both non-linear and dispersive wave processes be considered in order to capture physical effects such as wave shoaling, refractions, reflection and diffraction in variable depth environments. The prediction of incoming groups of waves is particularly important for evaluating ship motion within a harbor, Such a prediction makes it possible to evaluate ship safety more accurately and provide safe wave informations for navigation. Furthermore, a wave information support system is proposed for entering ships as one technique for improving the safety of ship operations. This system predicts the run of waves and reduces the danger by identifying the most dangerous point near the harbor entrance at the small wave groups.

Performance Prediction of an OWC Wave Power Plant with 3-D Characteristics in Regular Waves

  • Hong, Do-Chun;Hong, Keyyong
    • 한국항해항만학회지
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    • 제36권9호
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    • pp.729-735
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    • 2012
  • The primary wave energy conversion by a three-dimensional bottom-mounted oscillating water column (OWC) wave power device in regular waves has been studied. The linear potential boundary value problem has been solved following the boundary matching method. The optimum shape parameters such as the chamber length and the depth of the front skirt of the OWC chamber obtained through two-dimensional numerical tests in the frequency domain have been applied in the design of the present OWC chamber. Time-mean wave power converted by the OWC device and the time-mean second-order wave forces on the OWC chamber structure have been presented for different wave incidence angles in the frequency-domain. It has been shown that the peak period of $P_m$ for the optimum damping parameter coincides with the peak period of the time.mean wave drift force when ${\gamma}=0$.

분지관을 전파하는 약한 충격파에 관한 수치해석적 연구 (Study of the Shock Wave Propagating through a Branched Pipe Bend)

  • 김현섭;;김희동
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2002년도 학술대회지
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    • pp.165-168
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    • 2002
  • This paper describes the dynamics of the weak shock wave propagating inside some kinds of branched pipe bends. Computations are carried out by solving the two-dimensional, compressible, unsteady Euler Equations. The second-order TVD(Total Variation Diminishing) scheme is employed to discretize the governing equations. For computations, two types of branched pipe($90^{\circ}$ branch,$45^{\circ}$ branch) with a diameter of D are used. The incident normal shock wave is assumed at D upstream of the pipe bend entrance, and its Mach number is changed between 1.1 and 2.4. The flow fields are numerically visualized by using the pressure contours and computed schlieren images. The comparison with the experimental data performed for the purpose of validation of computational work. Reflection and diffraction of the propagating shock wave are clarified. The present computations predicted the experimented flow field with a good accuracy.

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곡관 내부를 전파하는 약한 비정상 충격파에 관한 연구 (Study of The Unsteady Weak Shock Propagating through a Pipe Bend)

  • 김현섭;김희동
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2001년도 추계학술대회논문집B
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    • pp.456-461
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    • 2001
  • This paper depicts the weak shock wave propagating inside some kinds of pipe bends. Computational work is to solve the two-dimensional, compressible, unsteady Euler Equations. The second-order TVD scheme is employed to discretize the governing equations. For the computations, the incident normal shock wave is assumed at the entrance of the pipe bend, and its Mach number is changed between 1.1 and 1.7. The turning angle and radius of the curvature of the pipe bend are changed to investigate the effects on the shock wave structure. The present computational results clearly show the shock wave reflection and diffraction occurring in the pipe bend. In particular, the vortex generation, which occurs at the edge of the bend, and its shedding mechanism are discussed in details.

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플라즈마 파동의 분산관계 측정에 관한 연구 (Measurement of Dispersion Relation of Plasma Wave)

  • 정중현;이종규
    • 수산해양기술연구
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    • 제33권3호
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    • pp.248-258
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    • 1997
  • The analytical solutions of the Fraunhofer Diffraction(FD) theory and the principle for measurement of the dispersion relation of plasma wave is presented. Especially, the method for measurement of low-frequency wave is discussed. The wavenumbers of the density fluctuations are obtained from the curve fitting between the expremental FD profile and theoretical one for each frequency component. In measurement of the wavenumber of the low -frequency region, the information of the wavenumber is easily obtained from the ratio of the intensity at = 0 to the intensity at =0.5. The millimeter wave FD apparatus was designed to measure low-frequency density fluctuations. The determined wavenumbers are in the range of =0.1~ 1.0cm. Thus, the millimeter wave FD method was shown to be useful for the measurement of low-frequency density fluctuations, which are impossible to be measured by using a convention. Thomson scattering. The obtained dispersion relations will be useful information for plasma waves.

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천해역에서의 쇄파 (Wave Breaking in Shallow Waters)

  • 유동훈
    • 한국해안해양공학회지
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    • 제2권2호
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    • pp.96-103
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    • 1990
  • A local Iribarren number is suggested for the universal use of breaker type classification, which relates the bed slope to the wave steepness, both being given from the breaking point. The existing Iribarren number uses the wave length at an offshore point, while the local Iribarren number uses the wave length at the breaking point so that it can imply any influences due to current interaction and diffraction. The modified form of Miche's breaking criterion includes 고 breaking parameter which may be related to the local Iribarren number. Using the modifiedform of Miche's criterion with the local Iribarren number, the inclusion of Doppler effect seems to describe well the wave breaking mechanism in a current-interacted flow on a sloping beach without any additional effects implemented.

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나노 사이즈 광프로브에 의한 에버네슨트파의 측정 (Measurements of Evanescent Wave using a Mano-size Optical Probe)

  • 최영규
    • 대한전기학회논문지:전기물성ㆍ응용부문C
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    • 제53권1호
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    • pp.30-35
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    • 2004
  • We have carried out a basic experiment in order to develope a super high-resolution optical microscope which transcend the limitation of diffraction and the wavelength of lightwave. The image of this scope is composed by measuring the evanescent wave which is localized on the surface of the testing materials. A detecting probe was fabricated with a single mode optical fiber to be sharpened by the chemical etching, and drived by PZT. The standing wave of $0.33\mu\textrm{m}$ wavelength evanescent wave which was generated from the $0.78\mu\textrm{m}$-wavelength semiconductor laser was detected by the $0.5\mu\textrm{m}$-thickness optical fiber probe.

파랑과 흐름의 혼합하에서 파랑집적구조물의 영향 (Effect of Wave Focusing Structures in Combined Waves and a Current)

  • 이중우;곽 파이 충
    • 한국항만학회지
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    • 제8권2호
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    • pp.67-77
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    • 1994
  • A time-domain numerical model is developed to examine the performance of a wave energy focusing structure in combined waves and a current. With the current assumed to be slow and the structure fully submerged, the wave-current interaction problem is reduced to a wave scattering problem in a uniform current. The diffraction of incident waves around a narrow berm is considered. The shape of the berm is defined by a parabola, imitating that of an optical reflector. The energy focus is achieved by reflecting the incident waves through a predetermined focal point. Through the numerical simulations, the numerical model is shown to be effective in modeling the wave-current interaction problem, and the current speed and direction are shown to affect significantly the location, amplitude and sharpness of the focus.

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