15 results on '"Rinoshika, Akira"'
Search Results
2. 3D orthogonal multi-resolution analysis of flow structures around an improved vehicle external mirror.
- Author
-
Dong, Lin and Rinoshika, Akira
- Subjects
DRAG coefficient ,DRAG (Aerodynamics) ,LARGE eddy simulation models ,REYNOLDS number ,WIND tunnels ,MIRRORS - Abstract
This paper proposes vehicle door mirrors with a tip shape and ditch to reduce the aerodynamic drag. The mean drag coefficients C
d of various mirror models were first measured using load cells within a 103 –105 Reynolds number range in a wind tunnel. The Cd of controlled mirrors with different ditch widths remained constant at approximately 0.75 and was lower than that of conventional mirrors. Using a large eddy simulation (LES), the 3D flow structures around modified and conventional mirrors were numerically analyzed at a Reynolds number of 2.8 × 105 . Based on a three-dimensional orthogonal wavelet multi-resolution technique, the instantaneous three-dimensional vorticity and velocity were decomposed into three wavelet levels or scales: large scale with a 62 mm central scale, intermediate scale with a 29 mm central scale, and small scale with a 16 mm central scale. This indicated that the length of the region of the vorticity iso-surfaces in an improved door mirror model as the tip ditch decreases. Because the tip ditch produced the more streamwise vortices, the large-scale spanwise vortices were suppressed. The streamwise vortices and spanwise vortices of the small- and intermediate-scale structures increased, which is mainly caused by the ditch in the tip. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
3. Wavelet-based phase average on the multi-scale wake structures of square cylinder.
- Author
-
Zheng, Yan, Rinoshika, Akira, and Suo, Jianqin
- Subjects
- *
WAVELETS (Mathematics) , *CONTINUOUS functions , *MATHEMATICAL transformations , *DECOMPOSITION method , *COMPARATIVE studies - Abstract
Phase-average technique based on wavelet multi-resolution analysis and continuous wavelet transform are used to reveal the phase-averaged features of square cylinder wake measured by high-speed PIV. The one-dimensional orthogonal wavelet analysis is first applied to decompose the measured velocity fields into large-, intermediate- and small-scale structures. Then the phase information referenced with large- and intermediate-scale flow structures are clearly identified based on Morlet wavelet transform. Finally, the data ensembles are phase-sorted to give phase-averaged representations of measured flow field. The instantaneous multi-scale structures suggest that large-scale vortices are weakened and begin to transfer into intermediate-vortices at the downstream of separation region. The intermediate-scale vortex observed at the upper boundary of shear layer is considered to be associated with the secondary vortex movement. The phase-averaged intermediate-scale structures tend to convey downstream along streamwise direction, with the rotation sense varying from the first half period to the last half period. The peaks of phase-averaged large-scale Reynolds stress tend to move back and forth in the near-wake region. These findings suggest that the proposed phase-average technique is effective in revealing multi-scale fluid dynamics of wake flow structures. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
4. Wavelet multi-resolution analysis on particle dynamics in a horizontal pneumatic conveying.
- Author
-
Zheng, Yan and Rinoshika, Akira
- Subjects
- *
PNEUMATIC-tube transportation , *FLUCTUATIONS (Physics) , *PARTICLE image velocimetry , *WAVELET transforms , *DISTRIBUTION (Probability theory) , *WAVELETS (Mathematics) - Abstract
The particle velocities are measured by the high-speed particle image velocimetry (PIV) in the acceleration and fully developed regimes of a horizontal pneumatic conveying. Based on the measured particle fluctuation velocities, continuous wavelet transform and one-dimensional orthogonal wavelet decomposition were applied to reveal particle dynamics in terms of time frequency analysis, the contribution from wavelet level to the particle fluctuation energy, spatial correlation and probability distribution of wavelet levels. The time frequency characteristics of particle fluctuation velocity suggest that the small-scale particle motions are suppressed and tend to transfer into large scale particle motions from acceleration regime to fully developed regime. In the near bottom part of pipe, the fluctuation energy of axial particle motion is mainly contributed from the wavelet levels of relatively low frequency, however, in the near top part of pipe, wavelet levels of relatively high frequency make comparable contribution to the axial particle fluctuation energy in the suspension flow regime, and this contribution decreases as particles are accelerated along the pipe. The low frequency wavelet levels exhibit large spatial correlation, and this spatial correlation increases as the particles flow from acceleration regime to fully developed regime. The skewness factor and kurtosis factor of wavelet level suggest that the deviation of Gaussian probability distribution is associated with the central frequency of wavelet level, and the deviation from Gaussian distribution is more evident as increasing central frequency. The higher wavelet levels can be linked to small sale particle motions, which lead to irregular particle fluctuation velocity. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
5. Analysis of particle dynamics in a horizontal pneumatic conveying of the minimum pressure drop based on POD and wavelet transform.
- Author
-
Zheng, Yan and Rinoshika, Akira
- Subjects
- *
PARTICLE dynamics analysis , *PRESSURE drop (Fluid dynamics) , *PARTICLE image velocimetry , *ORTHOGONAL decompositions , *WAVELET transforms - Abstract
In order to study the characters of particle fluctuation velocity at the minimum pressure drop (MPD) velocity in the acceleration and fully developed regimes of a horizontal pneumatic conveying, the particle fluctuation velocities measured by the high-speed particle image velocimetry (PIV) are first analyzed by time-averaged particle velocity, fluctuating energy, power spectrum and autocorrelation. Then the proper orthogonal decomposition (POD) and continuous wavelet transform are developed to reveal the particle fluctuation velocities in terms of the contributions to the particle fluctuation energy, time-frequency distribution, as well as probability density function from POD modes. The energy distributions of POD modes suggest that the first two POD modes are most energetic and dominate the particle motion, and the dominance increases from the acceleration regime to fully-developed regime. The time-frequency characteristics of POD modes reveal that small-scale particle fluctuations are suppressed in the fully-developed regime. It implies that the suppression of small-scale particle fluctuations may result in lower pressure drop at MPD velocity. The PDF distributions of POD modes exhibit that the particle fluctuation of first two POD modes follows the Gaussian distribution in the acceleration and fully developed regimes. However, the PDF distributions of POD modes gradually deviate from Gaussian distribution as increasing mode number. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
6. Two-dimensional orthogonal wavelet multi-resolution analysis on multi-scale flow structures behind triangle cylinder.
- Author
-
Zheng, Yan, Rinoshika, Akira, and Fujimoto, Shun
- Subjects
- *
ORTHOGONAL systems , *SHEARING force , *KELVIN'S statement , *KINETIC energy , *RELATIVISTIC energy - Abstract
This study focuses on the multi-scale turbulent structures of triangle cylinder wake flow measured by high-speed particle image velocimetry (PIV). The measured turbulent structures were spatially extracted into large-, intermediate-, relatively small-, and small-scale components using two-dimensional orthogonal wavelet analysis. Then the features of multi-scale turbulent structures were analyzed in terms of two-point auto correlation, power spectra, turbulent kinetic energy and Reynolds shear stress. It is found that the large-scale structure attributed to coherent motions in the wake flow makes largest contribution to the total fluctuating energy and maximum Reynolds shear stress, accounting for 84% and 92% respectively. The intermediate scale structures, which are unidentifiable by PIV measurement, are found to shed into the separated shear layer due to Kelvin-Helmholtz instability, and the central frequency of intermediate scale vortex is approximately twice of Kármán vortex shedding frequency. Besides, two symmetric regions of intensive velocity fluctuations having relatively small-scale are observed near the cylinder surface and the boundary of separation region, and they are not dominant. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
7. Three-dimensional wavelet analysis on turbulent structure of dune wake flow.
- Author
-
Zheng, Yan, Rinoshika, Akira, and Fujimoto, Shun
- Subjects
- *
WAVELETS (Mathematics) , *TURBULENT flow , *LARGE eddy simulation models , *VORTEX motion , *VISUALIZATION , *STREAMLINES (Fluids) - Abstract
The three-dimensional (3D) turbulent structure was simulated by large eddy simulation (LES), and then the numerical result was validated by PIV experiment. In order to give a detailed description of dune wake flow, the instantaneous velocity, vorticity, and pressure were decomposed into the large-, intermediate- and relatively small-scale components by 3D wavelet multi-resolution technique. To get a further understanding of coherent structure, the decomposed wavelet components were employed to calculate Q-criterion. It was found that the rollers and horse-shoe structures in the separation bubble were mainly contributed from large-scale structures and it made the most significance to the vorticity concentration. The observations of intermediate-scale horse-shoe structures indicated that the coherent structure was the combined effect of large- and intermediate-scale structures. Besides, from the visualization of 3D streamlines and pressure iso-surfaces, the separation bubble and pressure distribution are found to be dominated by large-scale structure. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
8. Multi-scale particle dynamics of low air velocity in a horizontal self-excited gas–solid two-phase pipe flow
- Author
-
Zheng, Yan and Rinoshika, Akira
- Subjects
- *
PIPE flow , *DYNAMICAL systems , *GAS-solid interfaces , *FLUCTUATIONS (Physics) , *PRESSURE drop (Fluid dynamics) , *AIR speed , *ACCELERATION (Mechanics) , *PARTICLE image velocimetry - Abstract
Abstract: The particle fluctuation velocities of a horizontal self-excited gas–solid two-phase pipe flow with soft fins near MPD (minimum pressure drop) air velocity are first measured by high-speed PIV in the acceleration and fully-developed regimes. Then orthogonal wavelet multi-resolution analysis and power spectrum are used to reveal multi-scale characteristics of particle fluctuation velocity. It is observed that the pronounced peaks of the spectra of axial and vertical fluctuation velocities appear in the range of low frequency near the bottom of pipe. These peaks of spectra become larger and their frequencies decrease by using fins. In the range of low frequencies (3–25Hz), the wavelet components of the fluctuating energy of axial particle velocity make the main contribution accounting for 87% and 93% respectively for non-fin and using fins near the bottom of pipe. In the range of relatively high frequency (50–400Hz), however, the wavelet components of using fins, accounting for about 49%, become smaller than that of non-fin, accounting for about 72%, in the suspension flow regime near the top of pipe. The skewness factor of axial particle fluctuation velocity indicates that the wavelet components follow the Gaussian probability distribution as the central frequency decreases. [Copyright &y& Elsevier]
- Published
- 2013
- Full Text
- View/download PDF
9. Multi-scale analysis on particle fluctuation velocity near the minimum pressure drop in a horizontal pneumatic conveying
- Author
-
Zheng, Yan, Rinoshika, Akira, and Yan, Fei
- Subjects
- *
PRESSURE drop (Fluid dynamics) , *PARTICLE image velocimetry , *PNEUMATIC-tube transportation , *FLUCTUATIONS (Physics) , *MULTISCALE modeling , *WAVELETS (Mathematics) , *FREQUENCIES of oscillating systems measurement - Abstract
Abstract: Multi-scale characteristics of particle fluctuation velocity at the MPD (minimum pressure drop) air velocity in the acceleration and fully-developed regimes are experimentally investigated. The high-speed particle image velocimetry (PIV) is first used to measure the fluctuating particle velocities at the MPD air velocity in a horizontal pneumatic conveying. Then the fluctuating particle velocities in the acceleration and fully-developed regimes are analyzed by the continuous wavelet transform and orthogonal wavelet multi-resolution technique. It is found that the wavelet components of low frequency dominate the fluctuating energy of axial particle velocity in the bottom part of the pipe, and contribute about 70% and 84% to the acceleration and fully-developed regimes, respectively. The more contribution to the fluctuating energy of vertical particle velocity, however, comes from the wavelet components of high frequency, accounting for about 82%. The low frequency component of auto-correlation suggests a large-scale particle flow in both acceleration regime and fully-developed regime. The low frequency wavelet component also makes a large contribution to spatial correlation of axial particle velocity, which increases from the acceleration regime to fully-developed regime. The PDF of low frequency components are asymmetrical near the bottom of the pipe, but the PDF of the relatively high frequency exhibits symmetry and the spread of the PDF evidently shrinks for increasing frequencies, implying a reducing fluctuation of high frequency component. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
10. Orthogonal wavelet analysis of turbulent wakes behind various bluff bodies
- Author
-
Rinoshika, Akira and Omori, Hiroki
- Subjects
- *
WAKES (Fluid dynamics) , *TURBULENCE , *VORTEX motion , *WAVELETS (Mathematics) , *REYNOLDS number , *SHEAR (Mechanics) , *ORTHOGONALIZATION - Abstract
Abstract: The multi-scale structures of turbulent wakes generated by three kinds of bluff body, i.e. circular cylinder, square cylinder and compound of cylinder and square (CS) cylinders, have been experimentally investigated in this paper. Firstly, the instantaneous velocity fields and vorticity were measured by the high-speed PIV technique in a circulating water channel. The instantaneous streamlines and corresponding normalized vorticity contours are obtained at a Reynolds number of 5600. Then one- and two-dimensional wavelet multi-resolution technique was used to analyze the instantaneous velocities and vorticity measured by the high-speed PIV. The turbulence structures were separated into a number of subsets based on their central frequencies, which are linked with the turbulence scales. The instantaneous vorticity and Reynolds shear stresses of various scales were examined and compared between the three generators. It is found that the large-scale turbulent structure makes the largest contribution to the vorticity and Reynolds shear stresses for the three wake generators and exhibits a strong dependence upon the initial conditions or the wake generators. The large-scale vorticity and the sizes of vortex in the circular and square cylinders are larger than those in the CS cylinder wake. The contributions to the Reynolds shear stresses from the large-scale turbulent structures account for 90–96% to the measured maximum Reynolds shear stresses for the three wakes. However, the small-scale structures make less contribution to the vorticity and Reynolds shear stresses. [Copyright &y& Elsevier]
- Published
- 2011
- Full Text
- View/download PDF
11. APPLICATION OF WAVELET-BASED SINGULARITY DETECTION TECHNIQUE IN AUTOMATIC INSPECTION SYSTEM.
- Author
-
HUIQIN JIANG, LING MA, HONGYU JIANG, and RINOSHIKA, AKIRA
- Subjects
INTEGRAL transforms ,THREE-dimensional display systems ,ALGORITHMS ,AUTOMATION ,SOLDER & soldering - Abstract
This paper describes an application of the wavelet transform in in-line solder paste inspection. In the development of a three-dimensional (3D) automatic inspection device of solder paste, it is necessary to detect the characteristic positions in images. In this paper, on the basis of the property of local wavelet transform modulus maximum (WTMM) and the deference filter, a practical algorithm is proposed for the detection of the characteristic positions. The proposed algorithm is applied to more than 20 actual images obtained from the 3D automatic inspection device. The detected errors are smaller than the maximum permissible error of 5 pixels. Also, the proposed algorithm is verified in-line. The experimental results show that the quality of solder paste can be successfully judged in-line. The proposed algorithm is superior to other possible techniques reported so far because of its implementation in assembly lines. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
12. Multi-scale wake structures around the dune.
- Author
-
Zheng, Yan, Dong, Lin, and Rinoshika, Akira
- Subjects
- *
PARTICLE image velocimetry , *REYNOLDS stress , *SAND dunes , *BOUNDARY layer (Aerodynamics) , *ORDER statistics - Abstract
Highlights • The three-dimensional dune wake are investigated by PIV. • The large-scale structure is responsible for the formation of separation region. • The intermediate-scale structure is more active near the separation region. • The intermediate-scale structure makes more contribution to Reynolds stresses. • The small-scale vortical structures decay quickly at the downstream. Abstract The three-dimensional wake structures behind a barchan dune model are investigated by the high-speed particle image velocimetry (PIV) at the Reynolds number of 5530. The measured velocity fields are first evaluated by time-averaged flow patterns and power spectra analysis. Then the one-dimensional orthogonal wavelet analysis is applied to reveal multi-scale turbulent structures and their corresponding second order statistics in the dune wake. The instantaneous multi-scale structures suggest that the large-scale structure is responsible for the formation of separation region. The intermediate-scale structure tends to be more active at the boundary of separation region, which may be due to the secondary vortex movement caused by the interactions between the wake and main flow. The appearance of small-scale vortices at the downstream of separation region indicates the breakdown process of large-scale vortices. The Reynolds stress and kinetic energy distribution suggest that the large-scale structures dominate the generation of turbulence in the dune wake. The lower kinetic energy contained in intermediate- and small- scale structures is considered to be related to smaller-scale interactions that reflect energy cascading phenomenon. The Reynolds shear stresses distributions suggest that the intermediate-scale structures also make significance in the separated boundary layer. As for small-scale structure, it is worthy to note that a region of high Reynolds shear stresses with an opposite sign is observed around the dune crest. The cross-correlation function of multi-scale structures suggest the quasi-periodicity of large-scale structure. The intermediate-scale structures also show a certain periodicity, however, such structures tend to be more unstable and the strength of them reduces as they travel downstream. When decreasing to small-scale, the vortical structures decays quickly at the downstream with larger convective velocity. This may indicate the breakdown process of large-scale vortices and the quick dissipation of small-scale vortices. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
13. Multi-scale analysis on particle dynamics of a horizontal self-excited pneumatic conveying at the minimum pressure drop.
- Author
-
Yan, Fei, Zheng, Yan, Rinoshika, Akira, Du, Yuchen, Tang, Wenxian, and Zhu, Rui
- Subjects
- *
PRESSURE drop (Fluid dynamics) , *FLUCTUATIONS (Physics) , *SELF-induced vibration , *POWER spectra , *PARTICLE dynamics analysis - Abstract
High-speed PIV is first used to measure the fluctuating particle velocities of a horizontal self-excited pneumatic conveying at low air velocity of minimum pressure drop in the acceleration and fully-developed regimes. Then, an orthogonal wavelet multi-resolution analysis and power spectrum are employed to reveal multi-scale characteristics of particle fluctuation velocity. It is found that the pronounced peaks of the spectra of axial and vertical fluctuation velocities appear in the low frequency range near the bottom of the pipe, and the peaks of the spectra become larger by using fins. In the range of low frequencies (3–25 Hz), the wavelet components of the fluctuating energy of axial particle velocity are the main contributions, accounting for 35% and 91% for non-fin and using fins, respectively, near the bottom of the pipe. However, in the range of relatively high frequencies (50–400 Hz), the wavelet components of using fins, accounting for approximately 57%, become smaller than that of non-fin, accounting for approximately 66%, in the fully-developed regime near the top of the pipe. The auto-correlation with fins displays large quasi-periodical waves in the low frequency regime as τ increases. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
14. Continuous wavelet analysis and proper orthogonal decomposition on particle dynamics in a horizontal self-exited gas-solid two-phase pipe flow.
- Author
-
Zheng, Yan, Zhang, Dan, Rinoshika, Hiroka, and Rinoshika, Akira
- Subjects
- *
ORTHOGONAL decompositions , *PROPER orthogonal decomposition , *PIPE flow , *TWO-phase flow , *PARTICLE dynamics , *WAVELETS (Mathematics) , *PARTICLE motion , *PARTICLE acceleration - Abstract
The high-speed particle image velocimetry is applied to measure the particle velocities of a horizontal self-exited gas-solid two-phase pipe flow with soft fins at the air velocity of the minimum pressure drop. The detailed particle dynamics of using fins' cases are analyzed and compared with a conventional non-fin case. It is found that the particle accelerating process is delayed in the acceleration regime and the vertical particle velocity is decreased near the top part of fully-developed regime due to the effect of fins' oscillations. The continuous wavelet transform of axial particle fluctuation velocity suggests that the fins make the particle motions fall into a lower frequency range in the acceleration regime. In the fully-developed regime, the dominating frequencies of large-scale particle flows are decreased and the streaks appearing in the range of high frequency are weakened by using fins. The energy distributions of proper orthogonal decomposition (POD) modes indicate that the relative energy of POD mode1 is increased by using fins in both acceleration and fully-developed regimes, and the dominance is significantly enhanced by using fins in the fully-developed regime. The auto-correlation coefficients and central frequencies of POD modes exhibit that the dominating large-scale particle motion is enhanced by using fins, correspondingly, small-scale particle motion is suppressed. [Display omitted] • The particle velocity of a horizontal self-exited gas-solid two-phase pipe flow is measured at minimum air velocity by PIV. • POD and continuous wavelet transform is adopted to analyze the particle fluctuation velocities. • The dominating frequencies of large-scale particle flows are decreased. • The streaks appears in the range of high frequency are weakened by using fins. • The dominance of POD mode 1 is significantly enhanced by using fins in the fully-developed regime. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
15. Analyses on flow structures behind a wavy square cylinder based on continuous wavelet transform and dynamic mode decomposition.
- Author
-
Zheng, Yan, Rinoshika, Hiroka, Zhang, Dan, and Rinoshika, Akira
- Subjects
- *
VORTEX shedding , *WAVELET transforms , *SQUARE , *REYNOLDS number , *SPEED measurements - Abstract
A comparative study on the flow structures behind square- and wavy-square were performed to understand the wake characteristics under spanwise periodic perturbation. The high-speed PIV measurements were carried out at Reynolds number of 4075. The time-averaged flow field suggested that wavy leading edge triggered the alternative secondary vortices along the span. The instantaneous flow field indicated that the regular asymmetric vortex shedding mode was changed to symmetric mode by wavy leading edge. It was found that periodical large-scale flows were suppressed, while the motions of small-scale vortical structures were enhanced by the wavy leading edge based on the continuous wavelet transform. The modal energy distribution of the dynamic mode decomposition suggested that the wavy leading edge weakened the dominance of large-scale vortical structure and promoted the transition from large-scale to small-scale vortical structure. The spatial patterns of representative dynamic modes DM 1 and DM 2 in streamwise plane indicated that the wavy leading edge changed the wake flow by the distortion of Karman vortex and its corresponding secondary vortical structure, which made the vortical structures more unstable and dissipates more quickly. Furthermore, the phase averaging process based on temporal coefficients of DM 1 and DM 2 revealed that the separated shear layer of wavy square cylinder extended to further downstream and the separated vortex was broken into several relatively small vortices during the shedding process. • A comparative study on the flow structures behind square- and wavy square-cylinders were performed. • Continuous wavelet transform and dynamic mode decomposition were used. • The oscillation of large-scale flow was suppressed and the small-scale structures were enhanced by the wavy leading edge. • The distortion and the breakdown process of shedding vortex were observed in the phase averaging process. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.