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1. Robust Energy Management of High-Speed Railway Co-Phase Traction Substation With Uncertain PV Generation and Traction Load.

Author

Liu, Yuanli, Chen, Minwu, Cheng, Zhe, Chen, Yinyu, and Li, Qunzhan

Abstract

Co-phase traction power supply system provides the insights for solving the existing power quality and electrical sectioning issues in high-speed railways, and the flexible control of co-phase traction substation (CTSS) with the integration of photovoltaic (PV) and hybrid energy storage system (HESS) attracts widespread attention. However, the strong volatilities and uncertainties of PV and traction load introduce challenges to the reliable and economic operation of CTSS. In this study, the energy management of CTSS aims at minimizing the operating cost of CTSS by coordinating PV, HESS, power flow controller (PFC) and the energy transactions with the power grid, where the three-phase voltage unbalance constraint is taken into account in particular. Furthermore, to handle the uncertainties of PV and traction load, a two-stage robust optimization model is proposed. The first stage determines the operating status of HESS and energy transaction status with grid, and the second stage aims at finding the optimal scheduling power of CTSS and the worst-case scenario with maximized operating cost of CTSS. A column-and-constraint generation algorithm is employed to solve this robust optimization model, along with efficient linearization approaches for the formulation of mixed-integer linear programming. The proposed methodology is tested with a real high-speed railway line case in China. [ABSTRACT FROM AUTHOR]

Published
2022
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3. A Unified Fault-Location Method of Autotransformer Traction Network for High-Speed Railway.

Author

Wang, Shuai, Chen, Minwu, Li, Qunzhan, and Kou, Zhechao

Subjects
ELECTRIC fault location, ELECTRIC power, FAULT location (Engineering), JOINT use of railroad facilities, IMPEDANCE matrices, ELECTRIC multiple units, HIGH speed trains, RAILROADS
Abstract

Autotransformer (AT) traction network (ATN) expands widely with the rapid development of high-speed railway (HSR). The fault occurrence in ATN will affect the safety and reliability of power supply for electric multiple units (EMUs). However, due to the nonlinear relationship between measured impedance and distance, the accuracy and efficiency of the fault location for ATN is facing serious challenges, especially with the diverse fault types and operation modes. In this paper, the general circuit topology of subsections is given and the characteristics of voltage distribution are analyzed according to the impedance matrix of ATN. Through the decoupling method, a comprehensive equivalent model adopting composite impedance is established, which can illustrate a series of characteristics for all fault types. Furthermore, the fault-location method is proposed to express the mapping between the fault position and the relevant electrical quantities for the subsection, and then a reasonable compensation for the effect of mutual impedance between faulty and non-faulty subsections is provided to improve the accuracy. Consequently, the multi-terminals synchronous information is employed for unified fault-location for ATN. Case studies including simulation and field testing have verified that the method is accurate and quite robust to various fault scenarios. [ABSTRACT FROM AUTHOR]

Published
2021
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4. Development of Train Regenerative Braking Ground Absorbing Device based on Super Capacitor Energy Storage

Author

Zhao Yunyun, Chen Guangzan, Li Qunzhan, He Zhixin, Liu Wei, Shi Haiou, Jin Shoujie, and Li Kunpeng

Subjects
050210 logistics & transportation, Urban rail transit, Computer science, medicine.medical_treatment, 05 social sciences, Topology (electrical circuits), Traction (orthopedics), Energy storage, Automotive engineering, Regenerative brake, Traction substation, 0502 economics and business, medicine, Train, Voltage
Abstract

The rational use of regenerative braking energy for urban rail transit trains directly affects the voltage safety of the traction power supply system and the electric braking function of the train. It is also of great significance for the implementation of train traction energy saving. This paper proposes a scheme of train regenerative braking ground absorbing device based on super-capacitor energy storage. It adopts multiple modular Buck/Boost DC conversion topology to realize bidirectional control of electric energy and stabilize the secondary utilization of traction network voltage and regenerative electric energy. According to the scheme of this paper, the energy storage device was developed and verified in the engineering of the Guangzhou Line 6 main line traction substation. The test indicators have met the design expectations.

Published
2019

5. A New Method With Hilbert Transform and Slip-SVD-Based Noise-Suppression Algorithm for Noisy Power Quality Monitoring.

Author

Wang, Yan, Li, Qunzhan, Zhou, Fulin, Zhou, Yang, and Mu, Xiuqing

Subjects
*HILBERT transform, *SINGULAR value decomposition, *WAVE analysis, *ELECTRIC potential, *FOURIER transforms
Abstract

This paper presents a new method for automatic monitoring of noisy power quality, which is based on the Hilbert transform (HT) and the proposed slip-singular value decomposition (SVD)-based noise-suppression algorithm. The proposed method first employs the fast Fourier transform (FFT)-based low-pass filter and HT to obtain the instantaneous fundamental amplitude and the FFT sequence of the signal. Second, the slip-SVD-based noise-suppression algorithm and threshold filtering are used to extract cleaned singular value characteristic waveform of the high-frequency signal. Through judging the instantaneous fundamental amplitude, cleaned singular value characteristic waveform, and the FFT sequence, the presence of disturbances including single and combined disturbances can be easily detected by the proposed method. To demonstrate the effectiveness of the proposed method, extensive tests are conducted on the diverse simulation disturbances and the actual data obtained from the practical power systems of China. The test results show that the proposed method has the advantages such as low false detection rate, good noise tolerance capability, short computational time, fewer parameters, practicability, and compatibility in comparison with the traditional disturbance detection methods. Besides, the proposed method can provide some important features such as amplitude, duration, and frequency for classification. Such advantages make the proposed method to be a good choice for real-time applications. [ABSTRACT FROM AUTHOR]

Published
2019
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6. Wind Speed Forecasting Based on Combination Forecasting Model

Author

Yu Junxiang, You Zhi-yu, Nan Xiaoqiang, and Li Qunzhan

Subjects
Wind power, Artificial neural network, Computer science, business.industry, Residual, Grid, Wind speed, Backpropagation, Data modeling, ComputerApplications_MISCELLANEOUS, Time series, business, Physics::Atmospheric and Oceanic Physics, Simulation
Abstract

The accuracy of wind speed forecasting is related to the wind power scheduling. When large-scale wind power connected grid, it also affects the stability of the grid. This paper applies time series model and Back Propagation (BP) neural network model to predict wind speed. Finally, a combination model of time series and BP neural network is proposed. In the combination model, the inputs of BP neural network are made up of historical data and residual errors calculated by time series model. The model can be more accurately in the short-time wind speed forecasting. And then shows an actual example.

Published
2010

7. Application of Improved Analytic Hierarchy Process to Some Scheme Optimization for High-Speed Railway's Exterior Power Supply

Author

Chen Min-wu, Xu Yinglei, Zhi Hui, and Li Qunzhan

Subjects
Scheme (programming language), Mathematical optimization, Computer science, Analytic network process, Analytic hierarchy process, Rough set, Set theory, Decision problem, computer, computer.programming_language, Power (physics), Group decision-making
Abstract

In the design of high-speed railway's traction power supply system, the choice for exterior power supply concerns many factors, and is a multi-criterion decision problem. In this paper, the principle of analytic hierarchy process (AHP) based on rough set theory and group decision-making is presented. An index system of exterior power supply evaluation is then constructed. Through independent decision making of each expert and the definition of the attribute significance based on the weighted sum, the weight values of alternatives is obtained and ranked, the quantitative description of decision process is realized and the optimum scheme for exterior power supply is determined. Taking an under construction high-speed railway for example, the availability and reasonableness of the proposed method is demonstrated.

Published
2009

8. Energy Saving Train Control for Urban Railway Train with Multi-population Genetic Algorithm

Author

Li Qunzhan, Tang Bing, and Liu Wei

Subjects
Mathematical optimization, education.field_of_study, Optimization problem, Automatic control, Computer science, Genetic algorithm, Population, Train, Energy consumption, Optimal control, education, Nonlinear programming
Abstract

The problem of urban rail train energy saving control with specified running time is a typical multi-constrains, non-linear optimization problem. By applying minimum principle to differential motion model of trains, the energy saving control strategies are obtained. An approach for optimizing problem based on variable-length real matrix coding multi-population genetic algorithm (MPGA) is presented. The train running is simulated by a multi-particle simulator considering complicated line conditions and influence of train length. The GA chromosome consisting of a variable-length two dimensional real matrix represents the train control sequence. A variable length operator based on annealing selection is introduced to enhance global search performance. Fitness sharing keeps population's multiplicity. Multi-population parallel search improves convergence rate and evolution stability. The correctness and advancement of the optimization control method have been validated through the simulation platform of train operation.

Published
2009

9. Study on Algorithm and Communication Protocol of Differential GPS Positioning Based on Pseudorange

Author

Xie Shaofeng, Zhang Liyan, Xu Yinglei, and Li Qunzhan

Subjects
Noise measurement, business.industry, Computer science, Embedded system, Real-time computing, Global Positioning System, Pseudorange, The Internet, business, Differential GPS, Communications protocol, Data transmission, Coding (social sciences)
Abstract

This paper presents a method of GPS differential positioning based on pseudorange. Both the generation and encoding of differential data based on pseudorange and differential data transmission protocol based on Interne are mainly discussed in the paper. An improved communication protocol is proposed which can decrease the transmission quantity without changing the differential positioning accuracy. The comparison between original data and coding data and the improved coding data are tested by instantiations. Experimental results show the modified coding method decrease the transmitted data amounts compared with the point positioning. When there are more than 9 satellites, the transmission quality acquired by this advanced communication protocol is only 70 percent of the RTCM protocol and the accuracy of the differential position is greatly improved.

Published
2009

10. Study on Life Distributions of the Elements Based on Rough Function Theory

Author

Li Qunzhan and Su Hongsheng

Subjects
symbols.namesake, Exponential family, Heavy-tailed distribution, Statistics, symbols, Statistical parameter, Applied mathematics, Natural exponential family, Stability (probability), Inverse distribution, Dirichlet distribution, Mathematics, Variance-gamma distribution
Abstract

In view of the facts that complexity of life distributions of the parts, classical exponential distributions can't truthfully and profoundly portray it due to inconsideration depreciation behavior impacts in process of the elements life, therefore, under many situations, the acquired results do not accord with objectivity. However, once deviating from the assumption of the exponential distributions, quantitative analysis of the stochastic life will face difficulties. Therefore, in accordance with the characteristics of phase-type(PH) distributions of its approaching all distributions in nature, the paper applies the rough function concept to construct the PH distribution function sets called the upper approaching and the lower approaching sets, the upper approaching function set is those smallest distribution functions whose lives are bigger than practical life, the lower approaching distribution function set is those largest distribution functions whose lives are smaller than practical life, the boundary between them is a measurable domain of practical life distributions. The section is created in [0,+infin) by PH distribution function classes, after a larger number of the elements lives are tested and processed, the life distributions of the tested elements only rely on its location in the boundary. Obviously, the lower approaching function sets are those PH distributions that all tested elements lives are bigger than their lives, and the upper approaching function sets are those PH distributions that all tested elements lives are lower than their lives, the remained PH distribution classes can more accurately approach practical life of the elements. The paper forecasts the life distributions of the elements by using of mixed Erlang distribution, a sort of PH distribution function classes, research results show that the method is simple and flexible, and is an instruction idea for evaluation of life or life distributions of the elements, and relatively more accurate than conventional ways based on exponential distributions, and more robust

Published
2006

11. Wavelets Selection for Commutation Failure Detection in HVDC System

Author

Wang Yuhong, Ren Zhen, and Li Qunzhan

Subjects
Discrete wavelet transform, Daubechies wavelet, Wavelet, Lifting scheme, Control theory, Stationary wavelet transform, Second-generation wavelet transform, Wavelet transform, Topology, Wavelet packet decomposition, Mathematics
Abstract

This paper presents a wavelet based commutation failure (CF) detection technique in HVDC system, and selects the suitable mother wavelet. The different properties of wavelets are analyzed in detail. It is shown that the orthogonality, regularity, moments, and symmetry of a wavelet function may affect the CF detection to some extent, and the critical factor is the moments of the mother wavelet. Discrete Wavelet Transform (DWT) has executed respectively on normal sinusoidal voltage signal and alternative voltage record with CF in Tianguang HVDC project. The transform result shows that DWT by Daubechies wavelet function with high vanishing moments is a cogent tool for CF detection in HVDC system.

Published
2006

12. Strategies of Daily Economical Dispatch for Power Supply Company Considering Electricity Contract and Spinning Reserve

Author

Jiang Dong-Rong, Li Qunzhan, and Liu Xue-jun

Subjects
Electric power system, Deregulation, Spot contract, business.industry, Electricity market, Business, Electricity, Bidding, Database transaction, Industrial organization, Profit (economics)
Abstract

In the electricity market, the initial problem considered by the power companies is the security and economics of power system. Before the electrical transaction, the power companies not only consider the power plants' competitive bidding spot price and volume, but also pay attention to the original purchase contract with the original power plants and the spinning reserve of power system. Therefore, it is necessary to coordinate the volumes among the contract bid, the competitive bids and the spinning reserve for the predicted generation volumes. Only in this way could protect the benefit of power plants, maximize the profit of power companies, make the power market steadily and power system securely, and carry out the purpose of power system restructuring and deregulation. Aiming at this, the paper puts forward a new model for the economically apportioning strategies among the competitive bids, the purchase contracts and the spinning reserve volumes. At the same time, a simplified model is taken for the seeking process. Linear programming and approach based on phase-out were used to solve the model, and the process became simple and credible. The analysis of case based on Matlab6.1 proves this approach is simpler and more reasonable

Published
2005

20. Online Antiicing Technique for the Catenary of the High-Speed Electric Railway.

Author

Guo, Lei, Gao, Xiaojie, Li, Qunzhan, Huang, Wenxun, and Shu, Zeliang

Subjects
ELECTRIC railroads, ICE prevention & control, AUTOTRANSFORMERS, HEAT balance (Engineering), ELECTRIC potential, STATIC VAR compensators
Abstract

To solve problems of catenary icing, this paper presents an online antiicing technique using the Joule effect on the catenary of the high-speed electric railway. According to its scheme, a couple of static var generators (SVGs) are, respectively, placed at the traction power substation and sectioning post to automatically generate an adjusted current, varying with the change of temperature, wind speed, and traction load, which will be obtained by online monitoring. The online antiicing current is not only determined by the developed heat balance equation for the contact wire, but also the developed relationship of the distributed current on catenary and the voltage of the traction network. The simulation and experimental results on an autotransformer (AT) traction power-supply system illustrate that the temperature of the contact wire can be maintained above 0 ^\circC with the antiicing current and the voltage of traction network also in the normal range. [ABSTRACT FROM AUTHOR]

Published
2015
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32. Digital Detection, Control, and Distribution System for Co-Phase Traction Power Supply Application.

Author

Shu, Zeliang, Xie, Shaofeng, Lu, Ke, Zhao, Yuanzhe, Nan, Xiaoqiang, Qiu, Daqiang, Zhou, Fulin, Gao, Sibin, and Li, Qunzhan

Subjects
POWER resources, CASCADE converters, POWER transmission, ELECTRIC impedance, ALGORITHMS
Abstract

Unbalance and reactive power currents of electric railway will result in poor power quality of three-phase industrial power grid. A co-phase traction power supply system is introduced in this paper to solve these problems by adopting single-phase ac-dc-ac converter. The converter is connected between two secondary windings of traction transformer with abilities of active power transmission and reactive power compensation. Because of the power conversion, the co-phase supply system can utilize single-phase feeding connection scheme instead of traditional two-phase feeding scheme. An actual 10 MVA/27.5 kV co-phase system with impedance-matching balance transformer is designed, developed, and tested. Its real-time detection, control, and distribution algorithms with field programmable gate array-based implementation are introduced. Some test running results validate the performance of the digital controller and demonstrate the feasibility of the proposed co-phase power supply system. [ABSTRACT FROM PUBLISHER]

Published
2013
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33. Single-Phase Back-To-Back Converter for Active Power Balancing, Reactive Power Compensation, and Harmonic Filtering in Traction Power System.

Author

Shu, Zeliang, Xie, Shaofeng, and Li, Qunzhan

Subjects
ELECTRIC current converters, SINGLE-phase alternating currents, ELECTRIC power, ALGORITHMS, PULSE width modulation, ELECTRIC loss in electric power systems, ELECTRICAL load
Abstract

An active power compensator (APC) based on single-phase back-to-back power converter is proposed in this paper to solve problems of power quality of electric railway power supply system. This system adopts a single-phase feeding connection, which is called cophase power supply scheme. In this scheme, APC connects the balance transformer between feeding phase for power supply and another phase for compensation. It has some characteristics, such as active power balancing, reactive power compensating, and harmonics filtering. In order to achieve these characteristics, the control scheme requires seven combination models. In this paper, a multifunctional control algorithm is proposed to realize every conceivable model. A cophase system with APC based on field programmable gate array (FPGA) and YNvd balance transformer is also designed and evaluated. The experimental results obtained from this prototype illustrate that the compensating ability is extremely high in steady-state and dynamic responses, and the power quality of a substation with distorted loads can be improved integrally. [ABSTRACT FROM PUBLISHER]

Published
2011
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