Yoshida Akihito scite author profile

Yoshida Akihito

4Publications

1Citation Statement Received

9Citation Statements Given

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A Study on Aerodynamic Damping and Aeroelastic Instability of Helical-shaped Super Tall Building

Kim¹,

Akihito²,

Tamura³

et al. 2016

jcoseik

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In this paper, aeroelastic instability and aerodynamic damping ratio of a helical 180° model which shows better aerodynamic behavior in both along-wind and crosswind responses on a super tall building was investigated by an aeroelastic model test, and the aerodynamic damping ratio was evaluated from the wind-induced responses of the model by using Random Decrement Technique. Aerodynamic damping ratios evaluated in this study were verified through comparison with previous results obtained by quasi-steady theory. As a result, the aeroelastic instability of the helical 180° model in crosswind direction were not occurred for any conditions with increasing the reduced wind velocity while the square model generally encounters aeroinstability due to the vortex shedding. The aerodynamic damping in along-wind direction for the helical 180° and the square model increased monotonically both with reduced wind velocity, i.e., there is no relation with modifications of building shapes. On the other hand, in crosswind direction, the characteristics of aerodynamic damping ratio with reduced wind velocity for helical 180° model were quit different from those of the square model.

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Correlation Analysis of Aerodynamic Forces acting onTall Buildings with Various Side Ratios

Kim¹,

Akihito²,

Tamura³

2015

jcoseik

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The objective of this study is to construct the TPU aerodynamic database with wind tunnel test data of overall wind loads and responses on tall buildings. In this study, wind tunnel tests were conducted to investigate characteristics of wind forces and the effect of wind load combination by cross-correlation analysis among along-wind overturning moment, across-wind overturning moment and torsional moment on a tall building with various side ratios( =0.33, 0.50, 0.77, 0.83, 0.91, 1.0, 1.1, 1.2 ,1.3 ,2.0 and 3.0) for different terrain roughnesses. The results of wind tunnel tests were compared with those of past literatures. As a result, there was no significant effects of changing of terrain roughnesses on moment coefficients and power spectral densities of across-wind overturning moment coefficients and torsional moment coefficients with various side ratios. Further, these results were good agreement with those of past literatures. From cross-correlation analysis, the across-wind overturning moment coefficients were highly correlated with the torsional moment coefficients. The results of this study will be helpful for practical designers in preliminary design stage.

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Aerodynamic and Response Characteristics of Tall Buildings with Various Polygon Cross-Sections

Chul¹,

Kumar²,

Tamura³

et al. 2013

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A series of wind tunnel tests were conducted on 13 straight and helical tall buildings with various polygon crosssections, including triangle, square, pentagon, hexagon, octagon, dodecagon, and circular. The primary purpose of the present study is to investigate the effect of increasing number of side on aerodynamic characteristics for the straight and helical tall buildings. The results show that the overturning moment coefficients and the spectral values decrease with increasing number of side, showing the largest mean and fluctuating overturning moments for the straight triangle model, and the largest spectral values for the straight square model. And the effects of helical shape on the aerodynamic characteristics decrease with increasing the number of side, but large differences were found in the spectral values for the safety level design wind speed, hence the largest maximum displacement.

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Wind Tunnel Tests for Evaluation of Sliding and Overturning Velocities on Shipping Containers

Kim¹,

Yi²,

Akihito³

2017

J Korean Soc Coast Ocean Eng

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In this study, wind characteristics of a shipping container were investigated through the wind tunnel test (high-frequency force balance test), and damage occurrence velocities of various containers with weights were evaluated based on results of the wind tunnel tests. As a result, mean wind force coefficients acting on containers in x-direction increased in the order of 12ft, 20ft, 40ft and 40ft high cube. On the other hand, mean wind force coefficients at y-direction increased in the order of 40ft high cube, 40ft, 20ft and 12ft. It was suggested that the shear layer separated from the corner of windward surface of the container is reattached on the sides of it, and then the mean wind force coefficient is weaker. As a result of the damage occurrence velocity on containers with weights, it was found that the probability of occurrence of sliding is higher rather than that of overturning. Further, the most unfavorable container was 40ft high cube, and the sliding and overturning occurrence velocities were 20.4 m/s and 26.8 m/s, respectively. Furthermore, the regression formula for sliding and overturing occurrence velocitys were proposed based on the results of relationship between weights of containers and damage occurrence velocities. These results are expected to be useful in establishing a guideline for external force estimation acting on container securing equipment and stacking way.

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Yoshida Akihito

A Study on Aerodynamic Damping and Aeroelastic Instability of Helical-shaped Super Tall Building

Correlation Analysis of Aerodynamic Forces acting onTall Buildings with Various Side Ratios

Aerodynamic and Response Characteristics of Tall Buildings with Various Polygon Cross-Sections

Wind Tunnel Tests for Evaluation of Sliding and Overturning Velocities on Shipping Containers

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