Your search keyword '"Song, Guobing"' showing total 5 results

1. Hybrid Multi-Infeed Receiver Line Longitudinal Protection Scheme Based on Voltage Waveform Comprehensive Distance Similarity.

Author

Gao, Shuping, Li, Xiaofang, Song, Guobing, Zheng, Han, and Duan, Yunqing

Subjects

VOLTAGE, FAULT location (Engineering), VOLTAGE references, ELECTRIC potential, LONGITUDINAL method

Abstract

The coupling of AC and DC power will impact the protective actions on the AC side and pose a threat to the stable operation of the interconnection system. Therefore, a new longitudinal protection method is proposed based on the comprehensive distance similarity of voltage waveforms. Initially, the measured voltage and current data are extracted to calculate the reference voltage, and the voltage waveform fitting is optimized. Subsequently, the Euclidean dynamic time warp (DTW) distance and entropy weight method are utilized to process the voltage waveform, enabling the calculation of its comprehensive distance similarity. This similarity is adopted to determine fault location. A hybrid DC multi-feed AC/DC interconnection system, incorporating a line commutated converter-voltage source converter (LCC-VSC) and a line commutated converter-modular multilevel converter (LCC-MMC), was established in PSCAD, and fault data were simulated and output. The effectiveness of the protection scheme was validated using MATLAB. Simulation results demonstrate that the proposed method can accurately distinguish between faults inside and outside a region. When compared to existing protection methods, it demonstrates superior performance in resisting transition resistance and noise interference, while also mitigating the impact of data asynchronicity. The speed and reliability of the method are further enhanced. [ABSTRACT FROM AUTHOR]

Published

2024

2. Design of a Series–Parallel All-DC Power Generation System Based on a New DC Wind Turbine.

Author

Kong, Qingfeng, Song, Guobing, Li, Zhanlong, and Wang, Xiangjun

Subjects

WIND power, WIND turbines, GREENHOUSE gases, ALTERNATIVE fuels, FOSSIL fuels, WIND power plants

Abstract

Wind energy is a good alternative to fossil fuels, as the use of fossil fuels has seriously exacerbated the emission of greenhouse gases such as carbon dioxide and has greatly affected the environment. Conventional AC wind farms and AC transmission systems inevitably face problems involving reactive currents and overvoltage in the context of large-scale, large-capacity, and long-distance transmission. However, the use of all-DC wind turbines, together with DC convergence and DC transmission systems, has obvious advantages over AC transmission in terms of transmission losses and expandability. Such technology does not require bulky frequency transformers and can well solve the aforementioned problems of reactive currents and overvoltage. This paper proposes a new series–parallel structure for an all-DC wind power generation system. The series end uses a DC/DC converter based on the Cuk circuit to solve the current consistency and power balancing problems of the series wind turbine through current control, whereas the parallel end uses a large-capacity DC/DC converter based on the capacity transfer principle, to solve the problem of voltage consistency at the grid-connected end. The series part is used to increase the voltage level of the system, which can reduce the huge construction costs of offshore platforms, and the parallel part is used to increase the capacity of the system, which enables its incorporation into large-scale wind farms to achieve the replacement of fossil fuel energy. [ABSTRACT FROM AUTHOR]

Published

2023

3. HVdc circuit breakers: Prospects and challenges

Author

Raheel Muzzammel, Song Guobing, Ali Raza, Ali Mustafa, Umar Alqasemi, Ghulam Abbas, Kumars Rouzbehi, and Universidad de Sevilla. Departamento de Ingeniería de Sistemas y Automática

Subjects

Engineering, Technology, QH301-705.5, 020209 energy, Dc grid protection, Powersystem protection, QC1-999, 02 engineering and technology, power system protection, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Biology (General), Instrumentation, QD1-999, Circuit breaker, Fluid Flow and Transfer Processes, dc grid protection, business.industry, Process Chemistry and Technology, Physics, 020208 electrical & electronic engineering, General Engineering, Multi–terminal HVdc transmission, Engineering (General). Civil engineering (General), Computer Science Applications, Offshore wind power, Chemistry, HVdc circuit breaker, multi–terminal HVdc transmission, Systems engineering, High-voltage direct current, TA1-2040, business, Power-system protection

Abstract

The integration of offshore wind farms has revitalized the interest in multi–terminal high voltage direct current (M–HVdc) transmission grids. HVdc breakers’ importance has increased as M–HVdc grids are now a commercial truth. Several HVdc circuit breaker technologies have been developed, published, and appeared as prototypes for HVdc networks. This paper summarizes the HVdc breaker technologies from the last two decades, distributed mainly in literature. A comparison of various state–of–the–art HVdc breakers is presented. Further, areas are identified where further research and development are required. The goal is to provide primary challenges and prospects in the HVdc breaker field.

Published

2021

4. Research on Differential Protection of Generator Based on New Braking Mode.

Author

Xia, Jingde, Li, Shaozhuo, Gao, Shuping, Shao, Wenquan, Song, Guobing, Chen, Changjiang, and Correia, José A.F.O.

Subjects

BRAKE systems, CASCADE connections, ELECTROMAGNETIC coupling, CURRENT transformers (Instrument transformer), DYNAMIC simulation, MATHEMATICAL models

Abstract

In view of the difficulties in coordination between reliability and sensitivity of conventional generator differential protection, this paper presents a novel generator differential protection scheme based on a new braking method. On the basis of the mathematical model of the field-circuit coupling method and the electrical network cascade characteristics, the stator windings were combined and decoupled by the improved six-sequence component method to eliminate electromagnetic coupling between winding coils. In accordance with the basic characteristics of longitudinal impedance, the function of sub-item discrimination was realized. Numerous simulations and the up-to-date dynamic experiments showed that the proposed method has good state discrimination ability and can effectively resist the influence of current transformer saturation. Thus, it has an excellent prospect for engineering promotion. [ABSTRACT FROM AUTHOR]

Published

2021

5. Investigation of Deterministic, Statistical and Parametric NB-PLC Channel Modeling Techniques for Advanced Metering Infrastructure.

Author

Masood, Bilal, Khan, M. Arif, Baig, Sobia, Song, Guobing, Rehman, Ateeq Ur, Rehman, Saif Ur, Asif, Rao M., and Rasheed, Muhammad Babar

Abstract

This paper is focused on the channel modeling techniques for implementation of narrowband power line communication (NB-PLC) over medium voltage (MV) network for the purpose of advanced metering infrastructure (AMI). Three different types of models, based on deterministic method, statistical method, and network parameters based method are investigated in detail. Transmission line (TL) theory model is used to express the MV network as a two-port network to examine characteristics of sending and receiving NB-PLC signals. Multipath signal propagation model is used to incorporate the effect of multipath signals to determine the NB-PLC transfer function. A Simulink model is proposed which considers the values of MV network to examine the characteristics of NB-PLC signals. Frequency selectivity is also introduced in the impedances to compare variations and characteristics with constant impedances based MV network. A state-of-the-art mechanism for the modeling of capacitive coupling device, and impedances of low voltage (LV) and MV networks is developed. Moreover, a comparative analysis of TL theory and multipath signal propagation models with the proposed Simulink model is presented to validate the performance and accuracy of proposed model. This research work will pave the way to improve the efficiency of next-generation NB-PLC technologies. [ABSTRACT FROM AUTHOR]

Published

2020