01 August 2016, Volume 37 Issue 8

    

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  Applications and Marketing Mode of Energy Storages in Power System

  TANG Xisheng

  Electric Power Construction. 2016, 37(8): 2-7. https://doi.org/10.3969/j.issn.1000－7229.2016.08.001

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  With the rapid development of renewable energy and the oncoming energy internet, the importance of energy storage in the whole energy power system is becoming more and more prominent. Energy storage technology, which is becoming more mature, basically has the promotion and application condition. According to the demands of power system, this paper analyzes the functions of energy storage in the peak-shaving, frequency regulation, voltage regulation of power system, power quality and reliability improvement, and their integration. Then, this paper analyzes the marketing modes of energy storage system based on different electricity price structures from generation, utility grid and demand side respectively. Finally, this paper proposes some suggestions on the development of energy storage from aspects of the application technology, development mode and market mechanism: （1） it should strengthen the support for the base material and the core technology to form the core competitiveness; （2） it should establish the energy storage supporting policies and form the favorable development mechanism for the application market of energy storage; （3） the upstream and downstream industries and the application marker should be integrated to promote the rapid development of energy storage technology; （4） it should encourage the competition and diversified development of multiple energy storage technologies.
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  Research Status and Prospect of Energy Storage Application under Energy Internet Background

  HU Zechun, DING Huajie, SONG Yonghua, ZHANG Fang

  Electric Power Construction. 2016, 37(8): 8-17. https://doi.org/10.3969/j.issn.1000－7229.2016.08.002

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  The integration of more and more large-scale renewable energy generation and distributed renewable energy generation brings new problems and challenges for the power system operation and planning. Energy storage is the indispensable resource to achieve the absorption of renewable energy generation with the high ratio integration. This paper firstly introduces main types of electric storage systems from the perspectives of energy conversion principles, technical advantages and disadvantages and applicable ranges, and mainly discusses thermal storage as well as power-to-gas and power-to-hydrogen storage. On this basis, this paper combs and analyzes the research status of energy storage in different sectors of power systems, i.e., power generation, transmission, distribution and demand sides, and multiple energy system interconnections under the background of energy internet. Lastly, this paper gives an outlook of the challenges and the corresponding research directions on the application of energy storage in the future.
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  Superconducting Magnetic Energy Storage System: Status and Prospect

  DAI Shaotao, WANG Bangzhu, MA Tao

  Electric Power Construction. 2016, 37(8): 18-23. https://doi.org/10.3969/j.issn.1000－7229.2016.08.003

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  Superconducting magnetic energy storage system （SMES） has the merits of quick response, high power density, and long life-time cycle, etc Its has important applications in voltage quality control, frequency regulation, load balance and pulse power supply. SMES is listed as one of the major breakthrough directions of advance energy storage technology in “Innovative Action Plan for Energy Technology Revolution （2016-2030）”. This paper introduces the system structure of SMES and its advancement, sums up the application in the scenarios suitable for the characteristics of SMES such as power system and ship power supply, reviews the representative large-scale projects and research status of SMES, and discusses two classes of hybrid energy storage systems combined with hydrogen or electrochemical cells focusing on complementation and performance enhancement. Finally, this paper points out some challenges for the development and large-scale application of SMES, as well as the corresponding measures.
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  Application Analysis of Energy Storage Technology in Power System

  SU Xiaolin, LI Dandan, YAN Xiaoxia, TAN Yixue

  Electric Power Construction. 2016, 37(8): 24. https://doi.org/10.3969/j.issn.1000－7229.2016.08.004

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  Energy storage is a key technology to build up smart grids and energy internet, and the important means to achieve the stable operation of grid, the optimization of energy transfer, the application of clean energy and the improvement of power quality. For various electrical energy storage, this paper focuss on technical analysis and comparison research based on its application time scales and multi-dimensional performance indexes, then presents the corresponding application scenarios, technical requirements and contents to be improved. Meanwhile, this paper analyzes and reviews the related application and the optimal allocation methods of the energy storage in power system. Finally, this paper illustrates the energy storage demands and challenges under the background of the global energy internet. The analysis results and conclusions act as a very positive guidance for the energy storage application.
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  Influence of Thermal Energy Storage on Performance of Supercritical Air Energy Storage System

  YANG Zheng, CHEN Haisheng, WANG Liang, SHENG Yong, JI Lv

  Electric Power Construction. 2016, 37(8): 33. https://doi.org/10.3969/j.issn.1000－7229.2016.08.005

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  Supercritical air energy storage system is a kind of new energy storage systems. Thermal energy storage is the key technology to improve the system efficiency. This paper establishes the thermodynamic model of supercritical air energy storage system in charge process, storage process and discharge process, and mainlyanalyzes the influence of thermal energy storage on the system performance. The analysis results show that, the charge efficiency decreases significantly with the increase of storage water flow in charge process; the storage efficiency decreases with the growth of the storage time in storage process; and the discharge efficiency firstincreasesand then decreases with the increase of the storage water flow.The system efficiencyin the global process first increases and then decreases with the increases of storage water flow, with the highest estimated value of 68.3% at the dimensionless storage water flow of 0.75.
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  Off-Design Performance Analysis of AA-CAES Based on Variable Efficiency Compressor

  PANG Yongchao，HAN Zhonghe

  Electric Power Construction. 2016, 37(8): 38. https://doi.org/10.3969/j.issn.1000－7229.2016.08.006

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  Advanced adiabatic compressed air energy storage system （AA-CAES） is a clean and environmentally-friendly large-scale energy storage technology, which provides a new solution for renewable energy grid and power peaking. In order to accurately study the impact of compressor on the operating performance of AA-CAES system under variable condition, this paper adds a compressor efficiency model to the traditional model. The results show that compared with the maximum pressure ratio of the gas storage room, the efficiency of heat exchanger has a great influence on the energy storage efficiency. As the heat exchanger efficiency increases by 5 percent, theres an average growth of 2.9% in storage efficiency. The energy density increases linearly with the increased gas storage maximum pressure ratio. During the energy storage stage, the power of the former two-stage compressor in AA-CAES system which operates stably is unchanged, but the power of the third unstable compressor is gradually increased with the gas storage pressure ratio, and the third stage compressor consumes the most energy at the end of the process.
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  Key Technology and Its Application of MW-Scale Converter in Battery Energy Storage System

  WU Junyong, MEI Dongsheng, ZHANG Jurui, HAO Liangliang, XIONG Fei, AI Hongke, MIAO Qing

  Electric Power Construction. 2016, 37(8): 45. https://doi.org/10.3969/j.issn.1000－7229.2016.08.007

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  Large-scale battery energy storage system （ESS） is the key technology of smart grid and future ESS station, which will be widely applied in renewable energy integration, power system frequency and peak load adjustment, and demand response, etc. This paper presents the topological structure and control strategy of a MW-scale ESS converter. Based on the strong support of Beijing Science & Technology Administration and Jingneng Group, this paper verifies the feasibility and correctness of the proposed technical route, from the whole processes of basic theory, simulation analysis, low voltage physical model in laboratory and MW-scale demonstration project. The practice shows that the proposed technical route for the large-scale ESS converter has laid the technological foundation for the future MW or ten MW ESS station, which has achieved the level of engineering practical application.
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  Application of Cascaded Bi-Directional Converter in Multi-Source Converter

  PANG Yunting, ZHANG Guoju, JIANG Xin, WANG Chuan, SHANG Ersong

  Electric Power Construction. 2016, 37(8): 52. https://doi.org/10.3969/j.issn.1000－7229.2016.08.008

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  Grid-connected only distributed generation cannot satisfy the users requirements of electricity costs saving. Multi-source converter （MSC）, which can help manage the energy utilization in demand, is accepted by users. Bi-directional converter for battery, which is characterized in wide range input voltage, high rise ratio, electrical isolation and high conversion efficiency, is the core component of MSC and one of the difficult points in MSC design. This paper designs the bi-directional converter for battery based on the cascaded scheme of buck/boost bi-directional circuit and bi-directional LLC circuit. Firstly, we analyze the topology, the operation principle and its characteristics, and deduce the small signal model for the bi-directional LLC circuit with resonant frequency. Then, combining the voltage, efficiency and other indicators, we optimally design the intermediate voltage of converter, LLC resonance circuit and other parameters. Finally, we adopt experiments to verify the effectiveness and and feasibility of the design of the proposed cascaded bi-directional converter.
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  Application of Hybrid Energy Storage System Based on Two-Stage Converter

  LI Ayong

  Electric Power Construction. 2016, 37(8): 58. https://doi.org/10.3969/j.issn.1000－7229.2016.08.009

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  To improve the controllability of the power generation of renewable energy such as photovoltaic power, wind power, etc., and avoid the negative impact of power fluctuation caused by external environmental changes on power grid, this paper proposes a hybrid energy storage system based on two-stage energy storage converter, which adopts PQ control strategy to suppress renewable power fluctuation. The energy compensation for energy storage system is estimated by low pass filter algorithm, then the controller is further designed to accurately control the power flow of energy storage and achieve timely and accurate energy exchange between energy storage system and power grids. Finally, this paper constructs a model for hybrid energy storage system under the background of photovoltaic power generation in MATLAB/SIMULINK platform. The simulation results show that, this method can smooth the output power of the photovoltaic power generation module smooth and has the suppression effect, which can meet the requirements of real-time scheduling of power system.
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  Demands Assessment Method of Energy Storage Power Sources in Grid Frequency Regulation

  ZHOU Tingting, LI Xinran, JIANG Xuejiao

  Electric Power Construction. 2016, 37(8): 65. https://doi.org/10.3969/j.issn.1000－7229.2016.08.010

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  Based on wind power fluctuation characteristics, this paper researches the impact of large-scale wind power integration on power grid frequency. We defined the quantitative indicators to study the impact of wind power integration on grid frequency; constructed an equivalent model of regional grid and the simulation model of energy storage power sources participating in grid primary frequency regulation; and analyzed the grid frequency fluctuation characteristics with wind power integration by simulation under two conditions: the traditional grid primary frequency regulation and the energy storage sources participating in that. The results show that by utilizing the property of fast power input and output of energy storage to assist in primary frequency regulation, the impact of wind power medium-and high-frequency fluctuation components on grid frequency can be effectively reduced, the grid frequency fluctuation can be significantly suppressed, and the capacity demands and the pressure of traditional units to perform grid secondary frequency regulation can be also greatly reduced, thus demonstrating the technical necessity of energy storage sources participating in grid frequency regulation under the conditions of large-scale wind power integration.
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  Capacity Allocation Method of Hybrid Energy Storage System Based on Energy Coordination Control

  WANG Ning, ZHANG Jiancheng

  Electric Power Construction. 2016, 37(8): 72. https://doi.org/10.3969/j.issn.1000－7229.2016.08.011

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  To smooth the random fluctuation of the active power in the stand-alone photovoltaic generation system, this paper proposes a coordination control strategy for the charge or discharge power allocation between different energy storage medium in the hybrid energy storage system. Based on the real-time state of charge （SOC） and the maximum possible charge or discharge time, this strategy commands the super capacitors to charge or discharge firstly, when reaching the limit of the SOC, and then controls the batteries to work. According to the theory of life cycle cost and the constraints of the real time SOC, the loss of power supply probability and the system independent operation ability, we establish the capacity allocation optimization model for hybrid energy storage system. Then, we use an improved particle swarm optimization algorithm to solve the given example, and verify the effectiveness of the energy coordination control strategy and the validity of the capacity allocation optimization model by comparing with the single-battery energy storage system.
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  Optimal Allocation of Energy Storage System Capacity with Benefit of Saving Coal

  HU Rong，MA Ye，LI Zhenkun，FU Yang

  Electric Power Construction. 2016, 37(8): 78. https://doi.org/10.3969/j.issn.1000－7229.2016.08.012

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  It has engineering application value to study the optimal allocation of energy storage system in power grid. In order to quantify the benefit of saving coal after the configuration of energy storage system, this paper discusses the benefit of saving coal of power grid with energy storage by load shift and improving the operating characteristics of generator set, and proposes the concept of daily coal saving for the unit of energy storage. Meanwhile, this paper comprehensively analyzes the economic value of energy storage in delaying the promotion of distribution network, reducing the network loss, arbitrage of energy storage, etc. With considering the costs of investment, operation, maintenance and disposal, this paper constructs the optimal allocation model of battery energy storage system with taking the maximum annual net income as the objective function. Finally, this paper solve the model with using optimization algorithm to determine the capacity of the energy storage system. The example analysis shows that, the energy storage system in power grid can create better returns by shifting peak and filling valley, and reduce the coal consumption in a certain extent, achieve energy saving and emission reduction.
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  Power-Type Storage System Capacity Configuration and Control Strategy for Enhancing LVRT Ability

  TIAN Li，ZHANG Yang，LI Dexin

  Electric Power Construction. 2016, 37(8): 84. https://doi.org/10.3969/j.issn.1000－7229.2016.08.013

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  The drop of grid voltage can cause the stator voltage of double fed induction wind generator （DFIG） to drop rapidly, which can make the DFIGs stator flux vibrate and cause a large oscillating current in DFIGs rotor and stator side, especially to the dual pulse width modulation （PWM ） converter. If we dont take an effective low voltage ride-through （LVRT） control measure, the DFIG may be disconnected from grid which will endanger the safe operation of the power system. This paper presents the DC-side LVRT technology, which installs super capacitor energy storage system on the DC bus capacitor in DFIG back to back converters, and uses its characteristics of high power density, short charging time, long service life and good temperature characteristic to realize short-term high-power charging and discharging; in the period of grid voltage drop and the DC voltage fluctuation, store the energy in the super capacitor, meanwhile can release excess energy to compensate DC voltage, thus can effectively enhance the low voltage fault tolerance of DFIG, and achieve the LVRT of DFIG. Through establishing 3 MW wind turbine simulation model, we determine and configure 7.65 F super capacitor according to the corresponding calculation principles. When the voltage drops 50% and the failure time continues, the super capacitor can maintain stable operation 15 s. The result verifies the effectiveness of super capacitor improving the LVRT capability of wind turbines.
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  Restraining Strategy of Photovoltaic Power Fluctuation Based on Energy Storage Battery

  ZHANG Zhuyao, XIAO Xin, GUO Xiaoli, JIANG Yahai, GU Lei, CHEN Weifeng

  Electric Power Construction. 2016, 37(8): 90. https://doi.org/10.3969/j.issn.1000－7229.2016.08.014

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  To restrain the photovoltaic （PV） power fluctuation and optimize the output characteristics of PV power, this paper proposes an on-line operation strategy for the battery energy storage system （BESS） based on 2 groups of battery topology and the optimal capacity determination method for double BESSs, based on the wavelet packet decomposition of PV power fluctuation frequency characteristics. In the model, 2 sets of BESS working states are charging and discharging states respectively. When any BESS arrives at their status of adequate charging or discharging, double BESSs switch their states at the same time. Based on the measured data of PV power plant, we verify the proposed scheme. The results show that the proposed scheme not only can have good restraining effect in PV power output characteristics, but also reduce battery charge and discharge times of BESS in the battery characteristics and improve the utilization efficiency of energy storage system because of using double BESSs.
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  Control Strategy and Economic Analysis of Energy Storage System Based on Bidirectional Complementary

  ZHANG Hua, ZHANG Bin, JI Tianming, HAN Xiaojuan

  Electric Power Construction. 2016, 37(8): 96. https://doi.org/10.3969/j.issn.1000－7229.2016.08.015

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  The high cost and immature control technology of energy storage system restrict the large-scale application of battery energy storage system. With full consideration of the economy of battery energy storage system, this paper proposes the control strategy for energy storage system based on bidirectional complementary, in which the bidirectional complementary battery energy storage system is composed of two groups of batteries. We calculate the the depth of discharge （DoD） by rain flow count method, in order to characterize the cycle life of the battery; and establish the charge and discharge control model for bidirectional complementaryenergy storage system. Taking the measured data of an photovoltaic-energy storage hybrid power station as example, we simulate and analyze the economy of the control strategy for bidirectional complementary battery energy storage system, in the different limited range of the critical state of charge during charge-discharge in energy storage system. The simulation results show that, compared with the control strategy of single energy storage system, the the control strategy of battery energy storage system based on bidirectional complementary can effectively improve the service life of the system and reduce the cost of energy storage system, which has a good prospect of engineering application.
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  Economic Analysis of Hybrid System Containing Distributed Photovoltaic Power and Battery Stored Energy

  SUN Bo, LIAO Qiangqiang, LIU Yu, LIU Yi, ZHOU Guoding, GE Honghua

  Electric Power Construction. 2016, 37(8): 102. https://doi.org/10.3969/j.issn.1000－7229.2016.08.016

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  To improve the utilization of photovoltaic （PV）, it is necessary to analysis the best operation modes of PV power systems collocating with or without energy storage batteries for the residential users and enterprise users. This paper establishes the cost-benefit analysis models for residential and enterprise users in four modes respectively: there is no PV power generation; PV electricity is all sold to the grid; power generated is for its own use first and surplus PV electricity is sold to the grid with and without energy storage batteries. And then, this paper analyzes the economic performance of the system under different operation modes. The results show that the more capacity of PV power system without energy storage, the higher the users profit; and the mode of power generated for its own use first and surplus PV power sold to the grid without battery gets the highest profit among the four modes. This paper studies the economy of 6 kinds of energy storage batteries in distributed PV/energy storage battery system for the PV power generation system with energy storage. The results show that it is less economical that PV power systems collocating with energy storage batteries for residential users while its economy has improved for enterprise users. With the cost reduction of energy storage battery, it has better application prospect that enterprise users collocating with hybrid systems containing distributed PV power and battery stored energy, in which the aqueous Na-ion battery has the highest economy. The research results can provide theoretical basis for the residential and enterprise users choice of the operation modes of PV power generation system.
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  Adaptive PV Power Smoothing Strategy Based on Hybrid Energy Storage Complementary

  SUN Chongbo, LYU Zhenyu, SONG Yi, JIAO Yang

  Electric Power Construction. 2016, 37(8): 108. https://doi.org/10.3969/j.issn.1000－7229.2016.08.017

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  The large-scale access in distribution network of distributed photovoltaic （PV） system will bring many unfavorable factors due to its fluctuating output power affected by environment. This paper proposes an adaptive PV power smoothing strategy based on the hybrid energy storage, which coordinates the power distribution between the battery and the super-capacitorto reach the fully use of fast responding characteristic of super-capacitor. In addition, the state of charge （SOC） feedback function of proposed strategy will have a strong adaptive ability for taking into account the SOC changing, to realize the optimization of energy utilization. Finally, we verify the feasibility and effectiveness of the proposed strategy through the analysis.
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  Control Method of Energy Storage System for Tracking Photovoltaic Power Generation Output Schedule Based on Chance-Constrained Programming

  YANG Tingting, LI Xiangjun, QI Lei, ZHANG Jietan

  Electric Power Construction. 2016, 37(8): 115. https://doi.org/10.3969/j.issn.1000－7229.2016.08.018

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  To maximize the photovoltaic （PV） system tracking scheduleed output, based on the short-term prediction of PV power generation and the randomness of prediction deviation, this paper proposes an energy storage control method that adopts chance-constrained programming. This method takes the PV/energy storage combined output in the upper and lower of scheduled range as the objective, considers the constraints of charge and discharge power and the state of charge （SOC）, and adopts improved adaptive particle swarm optimization algorithm （PSO） based on Monte Carlo simulation to obtain day-ahead each time charge and discharge power. Finally, taking a typical PV output for simulation, we compare the PV/energy storage tracking scheduled output effect and energy storage condition in fixed coefficients situation and variation coefficients situation. The results verify the feasibility and flexibility of the proposed strategy, which can provide effective reference scheme for day-ahead energy storage control.
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  Storage System Capacity Evaluation for Distributed Photovoltaic Distribution Network Based on Ordinal Optimization

  XU Bin, DING Ran, LIU Kangli, XU Bin, LIU Hongxin, CHEN Ya, RUAN Li

  Electric Power Construction. 2016, 37(8): 122. https://doi.org/10.3969/j.issn.1000－7229.2016.08.019

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  The development of distributed photovoltaic in China is rapid in recent years, which brings great challenges to the operation of distribution network. Due to the randomness, fluctuation and uncertainty of the distributed photovoltaic, the storage system is required to supply flexible adjustment ability to meet the need of safe and reliable operation of distribution network. Therefore, it is meaningful to research the storage system capacity evaluation for the distributed photovoltaic in distribution network. This paper establishes the distribution network operation simulation model with considering the influence of the integrated distributed photovoltaic; and adopts the scenario generation technique and the ordinal optimization method to simulate the the operation situation of distributed photovoltaic with different storage system capacity schemes, in order to obtain the optimal capacity of energy storage system for distribution network. The results show that fast and efficient solution can be achieved by using ordinal optimization method, which can obtain the capacity allocation scheme of energy storage system to meet the requirements of distribution network operation.
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  Effect of Time Delay on Smoothing Power Efficiency of Wind Turbine-Energy Storage System

  ZHAO Yujie, LING Zhibin, ZHANG Minji

  Electric Power Construction. 2016, 37(8): 128. https://doi.org/10.3969/j.issn.1000－7229.2016.08.020

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  Wind storage coordination is the effective way to stabilize wind power fluctuation,and time delay has a negative impact on the operation of the wind storage systems control strategy. This paper analyzes the impact of the time delay of each section in the wind storage system on power smoothing strategies, and proposes the solution to increase the system instruction update cycle. We simulate the method on the Matlab/Simulink platform, and analyze the impacts of different system instruction update cycles on the running effect of wind power smoothing control strategy of wind storage system. The simulation results show that, when the instruction system update cycle is twice the average time delay of the system, it can guarantee the effective implementation of the wind power smoothing control strategy. We apply the conclusion into the practical wind storage system, and the simulation results and the operation condition of actual wind storage system both show the effectiveness of the method, which can be a reference for the design of the smoothing power and other corresponding strategies of the wind power storage system.
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  Control Strategy of Smoothing Wind Power Output Using Battery Energy Storage System Based on Fuzzy Empirical Mode Decomposition

  YANG Xiyun, CAO Chao, LI Xiangjun, REN Jie, GAO Feng, WU Zihan

  Electric Power Construction. 2016, 37(8): 134. https://doi.org/10.3969/j.issn.1000－7229.2016.08.021

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  To reduce the fluctuation rate of wind power and improve the reliability of grid, this paper proposes a control method of smoothing wind power output with battery energy storage system based on fuzzy empirical mode decomposition （EMD）. Wind power is decomposed by EMD into two parts, the low-frequency part is used as wind power grid-connected value and the high-frequency part is stored by battery energy storage system （BESS）. Taking the fluctuation rate of wind power output after smoothing and the state of charge （SOC） as constraints, the orders of EMD filter can be adaptively adjusted on-line based on fuzzy control method, which can smooth wind power fluctuation better through fuzzy adaptive controller. Compared with another energy storage system control strategies for smoothing wind power, the simulation results show that the proposed method can effectively smooth the fluctuation of winds power output and avoid the over-charging and over-discharging of energy storage system so as to keep SOC stable.
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  Integrated Design and Control Strategy of Energy Storage System in Micro-Grid

  LIU Yuan, LI Yongdong, CHEN Xiaohang

  Electric Power Construction. 2016, 37(8): 141. https://doi.org/10.3969/j.issn.1000－7229.2016.08.022

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  As sunlight intensity and temperature vary, the photovoltaic power surges, resulting in the great fluctuation of power on the point connected the grid and the micro-grid. By controlling the active power of battery energy storage system, the photovoltaic power surges can be clamed down. This paper studies the operation mode of the photovoltaic-storage combined power generation system, and proposes its integrated design and control strategy. Then, this paper analyzes and designs the power conversion system for energy storage. Finally, this paper carries out the simulation study on the proposed scheme, based on the actual historical operation data of a photovoltaic power station and load. The simulation results verify the effectiveness of the control strategy of the photovoltaic-storage combined power generation system. The lithium battery energy storage and grid-connected system can steadily run in grid-connected or off-grid, and the switching transition process is smooth and stable.
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  Control System Hardware Design of Distributed Wind Turbine-Energy Storage System

  ZHANG Minji, LIANG Jia,SUN Yangzhou, LI Qiang,LING Zhibin

  Electric Power Construction. 2016, 37(8): 149. https://doi.org/10.3969/j.issn.1000－7229.2016.08.023

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  Distributed wind power-battery energy system （DWPBES） is a new cooperation form of energy storage and wind power, whose control system operating environment is poor, but requires high reliability. In order to ensure the stable operation of DWPBES, this paper designs the hardware of the control system of the DWPBES in a wind farm in Inner Mongolia, based on the principle of safety, performance, hardware maturity and data storage reliability. The fan-less industrial personal computer （IPC） is adopted as main controller. The data acquisition card is used to collect field signal. And this paper designs the voltage and current signal conditioning circuit to realize the isolated input of the field signal. We realize the three-stagessignal isolation for the main controller and field signal, which can ensure the safety of equipment and personnel. We adopt the uninterrupted power supply（UPS）to ensure the power down safety of control system.The designs above have been implemented and successfully operatedin a wind farm, which can be a reference for the popularization and application of the wind power-battery energy storage system.
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  Test Condition Design Method of Power Energy Storage System Based on Operation Probability Characteristics

  BAI Kai

  Electric Power Construction. 2016, 37(8): 155. https://doi.org/10.3969/j.issn.1000－7229.2016.08.024

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  At present, the batteries used in the large-capacity energy storage power station are mostly the products manufactured by electric vehicle battery production line, so their performance test methods are mostly standard working conditions or electric vehicle driving conditions. Through the analysis on the historical operation data of large-capacity energy storage power station, this paper proposes a design method of large-capacity energy storage power station under typical test condition, which takes the distribution of current amplitude, the change rate of current and the conversion time of charge and discharge as eigenvalue, and comprehensively considers the algebraic sum of energy transfer as zero in a repeat cycle. The total error of the eigenvalue probability distribution is less than 2% between the typical test conditions in the examples and the real operating conditions. Finally, this paper completes the performance degradation laboratory test of lithium battery module based on typical test conditions, which can provide the technical support for the battery selection and performance evalution of energy storage power station.