Your search keyword '"Lyu, Ling"' showing total 4 results

1. An adaptative control strategy for interfacing converter of hybrid microgrid based on improved virtual synchronous generator

Author

Liang Zhang, Xuesong Wang, Zhe Zhang, Ying Cui, Lyu Ling, and Guowei Cai

Subjects

Power system control, Synchronous machines, Power convertors and power supplies to apparatus, Self‐adjusting control systems, Control of electric power systems, Distributed power generation, Renewable energy sources, TJ807-830

Abstract

Abstract Inertial support for hybrid AC/DC microgrid systems is provided by the virtual synchronous generator (VSG). However, the fast performance of the system is neglected while enhancing the stability of the system. To address this problem, an adaptive virtual inertia control strategy based on VSG technology is proposed. This control approach adaptively adjusts the system virtual inertia when the system operation deviates from the nominal value, by slowing down the rate of change of AC frequency and DC voltage and improving the deviation of AC frequency and DC voltage. Meanwhile, when the AC frequency and DC voltage restore back to the rated value, the rate of change of AC frequency is accelerated and the DC voltage fluctuation is reduced by dynamically adjusting the virtual inertia of the system. The proposed adaptive virtual inertia control method combines the advantages of large and small inertia to effectively improve the dynamic response of the system voltage and frequency in both rectifier and inverter modes. Finally, the simulation and experimental results verify the effectiveness of the proposed control algorithm.

Published

2022

2. Multi-Time-Scale Low-Carbon Economic Dispatch Method for Virtual Power Plants Considering Pumped Storage Coordination.

Author

Zhang, Junwei, Liu, Dongyuan, Lyu, Ling, Zhang, Liang, Du, Huachen, Luan, Hanzhang, and Zheng, Lidong

Subjects

PUMPED storage power plants, POWER plants, RENEWABLE energy transition (Government policy), ELECTRIC transients, RENEWABLE energy sources, CARBON offsetting, CARBON nanofibers, ENERGY consumption

Abstract

Low carbon operation of power systems is a key way to achieve the goal of energy power carbon peaking and carbon neutrality. In order to promote the low carbon transition of energy and power and the coordinated and optimized operation of distributed energy sources in virtual power plants (VPP), this paper proposes a framework for collaborative utilization of pumped storage–carbon capture–power-to-gas (P2G) technologies. It also constructs a multi-time scale low carbon economic dispatch model for VPP to minimize the internal resource operation cost of VPP in each time period. During the intraday scheduling stage, the day-ahead scheduling results as the planned output and the energy flow is then dynamically corrected at a short-term resolution in the framework. This allows for the exploration of the low-carbon potential of each aggregation unit within the virtual power plant. The results of the simulation indicate that the strategy and model proposed in this paper can effectively encourage the consumption of renewable energy sources, promote the low-carbon operation of power system power, and serve as a valuable reference for the low-carbon economic operation of the power system. [ABSTRACT FROM AUTHOR]

Published

2024

3. An adaptative control strategy for interfacing converter of hybrid microgrid based on improved virtual synchronous generator

Author

Zhe Zhang, Lyu Ling, Xuesong Wang, Liang Zhang, Ying Cui, and Guowei Cai

Subjects

Virtual synchronous generator, Renewable Energy, Sustainability and the Environment, Computer science, Interfacing, Control (management), TJ807-830, Control engineering, Microgrid, Renewable energy sources

Abstract

Inertial support for hybrid AC/DC microgrid systems is provided by the virtual synchronous generator (VSG). However, the fast performance of the system is neglected while enhancing the stability of the system. To address this problem, an adaptive virtual inertia control strategy based on VSG technology is proposed. This control approach adaptively adjusts the system virtual inertia when the system operation deviates from the nominal value, by slowing down the rate of change of AC frequency and DC voltage and improving the deviation of AC frequency and DC voltage. Meanwhile, when the AC frequency and DC voltage restore back to the rated value, the rate of change of AC frequency is accelerated and the DC voltage fluctuation is reduced by dynamically adjusting the virtual inertia of the system. The proposed adaptive virtual inertia control method combines the advantages of large and small inertia to effectively improve the dynamic response of the system voltage and frequency in both rectifier and inverter modes. Finally, the simulation and experimental results verify the effectiveness of the proposed control algorithm.

Published

2021

4. The fast development of solar terrestrial sciences in Taiwan.

Author

Liu, Jann-Yenq, Chang, Loren, Chao, Chi-Kuang, Chen, Ming-Quey, Chu, Yen-Hsyang, Hau, Lin-Ni, Huang, Chien-Ming, Kuo, Cheng-Ling, Lee, Lou-Chuang, Lyu, Ling-Hsiao, Lin, Chia-Hsien, Pan, Chen-Jeih, Shue, Jih-Hong, Su, Ching-Lun, Tsai, Lung-Chih, Yang, Ya-Hui, Lin, Chien-Hung, Hsu, Rue-Ron, and Su, Han-Tzong

Subjects

GEOPHYSICS, ATMOSPHERIC electricity, TERRESTRIAL heat flow, SOLAR energy, RENEWABLE energy sources

Abstract

In Taiwan, research and education of solar terrestrial sciences began with a ground-based ionosonde operated by Ministry of Communications in 1952 and courses of ionospheric physics and space physics offered by National Central University (NCU) in 1959, respectively. Since 1990, to enhance both research and education, the Institute of Space Science at NCU has been setting up and operating ground-based observations of micropulsations, very high-frequency radar, low-latitude ionospheric tomography network, high-frequency Doppler sounder, digital ionosondes, and total electron content (TEC) derived from ground-based GPS receivers to study the morphology of the ionosphere for diurnal, seasonal, geophysical, and solar activity variations, as well as the ionosphere response to solar flares, solar wind, solar eclipses, magnetic storms, earthquakes, tsunami, and so on. Meanwhile, to have better understanding on physics and mechanisms, model simulations for the heliosphere, solar wind, magnetosphere, and ionosphere are also introduced and developed. After the 21 September 1999 Mw7.6 Chi-Chi earthquake, seismo-ionospheric precursors and seismo-traveling ionospheric disturbances induced by earthquakes become the most interesting and challenging research topics of the world. The development of solar terrestrial sciences grows even much faster after National Space Origination has been launching a series of FORMOSAT satellites since 1999. ROCSAT-1 (now renamed FORMOSAT-1) measures the ion composition, density, temperature, and drift velocity at the 600-km altitude in the low-latitude ionosphere; FORMOSAT-2 is to investigate lightning-induced transient luminous events, polar aurora, and upper atmospheric airglow, and FORMOSAT-3 probes ionospheric electron density profiles of the globe. In the near future, FORMOSAT-5 and FORMOSAT-7/COSMIC-2 will be employed for studying solar terrestrial sciences. These satellite missions play an important role on the recent development of solar terrestrial sciences in Taiwan. [ABSTRACT FROM AUTHOR]

Published

2016