Cheng Yan scite author profile

The number of new energy power stations in China is boosting in recent years, a large number of conventional power supplies have been replaced, resulting in severe problems in controlling the frequency of power grids and easily leading to frequency issues of the state power grid. When large frequency disturbance occurs in power grid, renewable energy stations can participate in primary frequency regulation of power grid and provide support for system frequency, and the primary frequency regulation capability of the large power grid in sending end is significantly enhanced. In this study, a simulation evaluation method was proposed for the FFR controller of new energy power stations based on the RT-LAB real-time simulation analysis platform. The FFR controller was connected to in the simulation model of the state power grid via I/O physical interfaces and MODBUS communication, so as to conduct the step disturbance test, anti-disturbance performance verification test and automatic generation control (AGC) coordination test and hardware-in-the-loop simulation test of the controller. Results of the tests proved that the test method proposed in this study is accurate and reliable, and help improve the performance of a new energy power station in the state power grid.

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A neural network-based approach for bending analysis of strain gradient nanoplates

Yan

Vescovini²,

Fantuzzi³

2023

Engineering Analysis with Boundary Elements

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Phonon Dispersion and Thermodynamics Properties of CaF ₂ via Shell Model Molecular Dynamics Simulations

Yan

Cui-E

Zhao-Yi

et al. 2009

Commun. Theor. Phys.

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The phonon and thermodynamics properties of face-centered cubic CaF2 at high pressure and high temperature are investigated by using the shell model interatomic pair potential within General Utility Lattice Program (GULP). The phonon dispersion curves and the corresponding density of state (PDOS) in this work are consistent with the experimental data and other theoretical results. The transverse optical (TO) and longitudinal optical (LO) mode splitting as well as heat capacity at constant volume CV and entropy S versus pressure and temperature are also obtained.

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Cheng Yan

A framework based on physics-informed neural networks and extreme learning for the analysis of composite structures

A semi-analytical framework for nonlinear vibration analysis of variable stiffness plates

Simulation Evaluation of Fast Frequency Response Capacity of New Energy Power Stations

A neural network-based approach for bending analysis of strain gradient nanoplates

Phonon Dispersion and Thermodynamics Properties of CaF ₂ via Shell Model Molecular Dynamics Simulations

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Cheng Yan

A framework based on physics-informed neural networks and extreme learning for the analysis of composite structures

A semi-analytical framework for nonlinear vibration analysis of variable stiffness plates

Simulation Evaluation of Fast Frequency Response Capacity of New Energy Power Stations

A neural network-based approach for bending analysis of strain gradient nanoplates

Phonon Dispersion and Thermodynamics Properties of CaF 2 via Shell Model Molecular Dynamics Simulations

Contact Info

Product

Resources

About

Phonon Dispersion and Thermodynamics Properties of CaF ₂ via Shell Model Molecular Dynamics Simulations