Ting Wang scite author profile

Ting Wang

5Publications

29Citation Statements Received

3Citation Statements Given

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Affiliations

Huazhong University of Science and Technology, University of New Orleans, Princeton University

Publications

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Effects of Various Modeling Schemes on Mist Film Cooling Simulation

Wang

2005

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Numerical simulation is performed in this study to explore filmcooling enhancement by injecting mist into the cooling air with a focus on investigating the effect of various modeling schemes on the simulation results. The effect of turbulence models, dispersed-phase modeling, inclusion of different forces (Saffman, thermophoresis, and Brownian), trajectory tracking, and mist injection scheme is studied. The effect of flow inlet boundary conditions (with/without air supply plenum), inlet turbulence intensity, and the near-wall grid density on simulation results is also included. Using a 2-D slot film cooling simulation with a fixed blowing angle and blowing ratio shows a 2% mist injected into the cooling air can increase the cooling effectiveness about 45%. The RNG k-ε model, RSM and the standard k-ε turbulence model with the enhanced wall treatment produce consistent and reasonable results while the turbulence dispersion has a significant effect on mist film cooling through the stochastic trajectory calculation. The thermophoretic force slightly increases the cooling effectiveness, but the effect of Brownian force and Saffman lift is imperceptible. The cooling performance is affected negatively by the plenum in this study, which alters the velocity profile and turbulence intensity at the jet exit plane. The results of this paper can serve as the qualification reference for future more complicated studies including 3-D cooling holes, different blowing ratios, various density ratios, and rotational effect.

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Sound transmission loss of an inertant metamaterial plate submerged in moving fluids

Wang

Liu

Chen

2022

Applied Mathematical Modelling

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Vibro-acoustic performance of acoustic metamaterial plate with periodic lateral local resonator

Guo¹,

Guo²,

Wang³

2021

Acta Phys. Sin.

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Based on the Bloch theory and the flexural wave propagation theorem, the model for calculating the vibration response, sound radiation power and radiation efficiency of an acoustic metamaterial plate is established. The modal analysis of a bare pate and the plate attached to periodical lateral local resonators are developed to investigate the vibration regulation. In addition, the patterns of the sound radiation power and radiation efficiency of the plate attached to periodical lateral local resonators versus frequency are studied. The results show that 1) in a specific frequency range, the mean square velocity and the sound radiation power are far lower than those of the bare plate, which is due to the resonance of the lateral local resonator; 2) unlike the vibration response and sound radiation power, the radiation efficiency of the plate attached to periodical lateral local resonator is higher than that of the bare plate. The investigation of the plate attached to lateral local resonator in this paper lays a solid foundation for the practical engineering in the field of vibration suppression and noise reduction.

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Detection and Localization of Stationary Weights Hanging on Aerial Telecommunication Field Fibers using Distributed Acoustic Sensing

Özharar¹,

Ding²,

Yu³

et al. 2021

Opt. Express

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For the first time to our knowledge, a stationary weight hanging on an operational aerial telecommunication field fiber was detected and localized using only ambient data collected by a φ-DAS system. Although stationary weights do not create temporally varying signals, and hence cannot be observed directly from the DAS traces, the existence and the location of the additional weights were revealed by the operational modal analysis of the aerial fiber structure.

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Low-frequency sound and vibration reduction of a metamaterial plate submerged in water

Wang

Chen

Dong

et al. 2022

European Journal of Mechanics - A/Solids

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Ting Wang

Effects of Various Modeling Schemes on Mist Film Cooling Simulation

Sound transmission loss of an inertant metamaterial plate submerged in moving fluids

Vibro-acoustic performance of acoustic metamaterial plate with periodic lateral local resonator

Detection and Localization of Stationary Weights Hanging on Aerial Telecommunication Field Fibers using Distributed Acoustic Sensing

Low-frequency sound and vibration reduction of a metamaterial plate submerged in water

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