Songling Huang scite author profile

Noncontact with the test specimen is the advantage of Electromagnetic Acoustic Transducer（EMAT）, but it lowers the efficiency of EMAT, because the lift-off of transducer reduces the magnitude of alternating magnetic field in the specimen which has close relationship with exciting and receiving ultrasonic signals. The distribution and intensity of the alternating magnetic field at different lift-off values are simulated with the software of ANSOFT, and the relationship between lift-off and received signals is analyzed by experiments. Results show that the lift-off of transmitter should be about 2mm.

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An Irregular Current Injection Islanding Detection Method Based on an Improved Impedance Measurement Scheme

Liu

Zhao

Wang

et al. 2018

Energies

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One class of islanding detection methods, known as impedance measurement-based methods and voltage change monitoring-based methods, are implemented through injecting irregular currents into the network, for which reason they are defined in this paper as irregular current injection methods. This paper indicates that such methods may be affected by distributed generation (DG) unit cut-in events. Although the network impedance change can still be used as a judgment basis for islanding detection, the general impedance measurement scheme cannot separate island events from DG unit cut-in events in multi-DG operation. In view of this, this paper proposes a new islanding detection method based on an improved impedance measurement scheme, i.e., dynamic impedance measurement, which will not be affected by DG unit cut-in events and can further assist some other equipment in islanding detection. The simulations and experiments verify the stated advantages of the new islanding detection method.

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Multiphysics Modeling of a Lorentz Force-Based Meander Coil Electromagnetic Acoustic Transducer via Steady-State and Transient Analyses

2016

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Compatibility Issues with Irregular Current Injection Islanding Detection Methods and a Solution

et al. 2019

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Islanding detection methods, based on injecting high-/low-frequency currents or negative sequence fundamental frequency currents and observing the resultant responses, are collectively referred to as irregular current injection methods in this paper. In multi-distributed generation (DG) operation, if there is no restriction to the phase of injected irregular currents, the currents at the same frequency may cancel each other out, and then their convergent current may be too small to cause a detectable response, for which reason islanding detection will be severely affected. Accordingly, this paper raises a compatibility issue, which requires the phase difference between any two injected irregular currents to be within a certain interval. In response to this issue, a solution is proposed. According to this solution, the terminal voltage of DG units is referenced to conduct irregular currents injection, and only certain high-frequency currents are used as injected currents. If this solution is adopted by as many manufacturers as possible, the effect and reliability of such methods will be greatly improved.

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An Interharmonic Phasor and Frequency Estimator for Subsynchronous Oscillation Identification and Monitoring

Chen

Zhao

Wang

et al. 2019

IEEE Trans. Instrum. Meas.

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A New Omni-Directional EMAT for Ultrasonic Lamb Wave Tomography Imaging of Metallic Plate Defects

Huang

Wei

Zhao

et al. 2014

Sensors

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This paper proposes a new omni-directional electromagnetic acoustic transducer (EMAT) for the ultrasonic Lamb wave (ULW) tomography imaging (TI) of defects in metallic plates. The proposed EMAT is composed of a permanent magnet and a coil with a contra-flexure structure. This new EMAT coil structure is used for omni-directional ULW transmission and reception and ULW TI for the first time. The theoretical background and the working principles of this EMAT are presented and analyzed. The experimental results of its use on a 3 mm thick aluminum plate indicate that the EMAT with a contra-flexure coil (CFC) can transmit and receive a pure single A0 mode ULW with a high signal-to-noise ratio (SNR). Thus, the extraction of the projection data used for ULW TI may be performed accurately. The circumferential consistency of the projection data is only slightly influenced by the distortion of the eddy current field that is induced by the new CFC with an irregular shape. When the new EMAT array is used for ULW TI using the cross-hole method and SIRT arithmetic, a desirable imaging quality can be achieved, and the estimated size of an artificial corrosion defect agreed well with its actual value. The relation between the reconstruction resolution and the number of the new EMATs used is analyzed. More TI experiments are carried out when the aluminum plate defect is in two different locations relative to the EMAT array, for the further investigation of the performances of the new EMATs.

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Dynamic Harmonic Synchrophasor Estimator Based on Sinc Interpolation Functions

Chen

Zhao

Wang

et al. 2019

IEEE Trans. Instrum. Meas.

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New Measurement Algorithm for Supraharmonics Based on Multiple Measurement Vectors Model and Orthogonal Matching Pursuit

Zhuang¹,

Zhao²,

Wang³

et al. 2019

IEEE Trans. Instrum. Meas.

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Songling Huang

Study on the lift-off effect of EMAT

An Irregular Current Injection Islanding Detection Method Based on an Improved Impedance Measurement Scheme

Multiphysics Modeling of a Lorentz Force-Based Meander Coil Electromagnetic Acoustic Transducer via Steady-State and Transient Analyses

Compatibility Issues with Irregular Current Injection Islanding Detection Methods and a Solution

An Interharmonic Phasor and Frequency Estimator for Subsynchronous Oscillation Identification and Monitoring

A New Omni-Directional EMAT for Ultrasonic Lamb Wave Tomography Imaging of Metallic Plate Defects

Dynamic Harmonic Synchrophasor Estimator Based on Sinc Interpolation Functions

New Measurement Algorithm for Supraharmonics Based on Multiple Measurement Vectors Model and Orthogonal Matching Pursuit

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