參考文獻
[1] 深圳特區報. 我市啟動全國最大規模車網互動實測[EB/OL] . (2025-03-31) [2025-05-12] . https://www.sz.gov.cn/cn/xxgk/zfxxgj/zwdt/content/post_12097412.html.
[2] 朱心月,李炳華,王成,等. 電動汽車 V2G 關鍵技術的研究[J]. 電氣應用,2021,40(4) :36-43.
[3] 上海市發展和改革委員會. 關于進一步完善我市分時電價機制有關事項的通知[EB/OL] . (2022-12-16)[2025-05-12].https://www.shanghai.gov.cn/gwk/search/content/e2652e3ab7ee49438d6e82af8880b160.
[4] 石雪倩,瞿仕波,廖偉雄. 新型能源結構下 V2G 的研究綜述[J]. 中國科技縱橫,2024(16) :37-39.
[5] ZECCHINO A, PROSTEJOVSKY A M, ZIRAS C, et al.Large-Scale Provision of Frequency Control Via V2G: The Bornholm Power System Case[J].Electric Power Systems Research,2019,170 :25-34.
[6] REVANKAR S R, KALKHAMBKAR V N.Grid integration of battery swapping station:A review[J].Journal of Energy Storage,2021,41 :102937.
[7] DU P, LIU T, CHEN T, et al.Enhancing green mobility through vehicle-to-grid technology:Potential,technological barriers,and policy implications[J].Energy & Environmental Science,2025,18(10) :4496-4520.
[8] KILIC A.TLS-Handshake for Plug and Charge in Vehicular Communications[J].Computer Networks,2024,243 :110281.
[9] 黃珍瑤,程諾,江岳文. 考慮 EV 調峰需求響應可靠性的 V2G 聚合商多時間尺度調度策略[J] . 高電壓技術,2025,51(1) :401-411.
[10] 毛玲,張鐘浩,趙晉斌,等. 車-樁-網交融技術研究現狀及展望[J]. 電工技術學報,2022,37(24) :6357-6371.
[11] 魏玲瓊,陳亦文,文翌鋮,等. 關于電動汽車雙向車載充電器的分析綜述[J]. 電氣開關,2024(2) :17-23.
[12] ZHOU M , YU L , WANG H . A SiC-Based Highly Integrated Bidirectional AC/DC Converter for PEV Charging Applications[C]//2021 IEEE 1st International Power Electronics and Application Symposium,2021.
[13] SARNAGO H, LUCIA O, CHHAWCHHARIA S, et al.Novel bidirectional universal 1-phase/3-phase-input unity power factor differential AC/DC converter[J].Electronics Letters,2023,59(13) :1-10.
[14] XIAO L, RUAN X.The Bidirectional Four-Switch Buck-Boost Converter with PWM Plus Phase-Shift Control[C]//2024 IEEE 10th International Power Electronics and Motion Control Conference, 2024.
[15] QI Y, LIU X, LI W, et al.Decentralized Control for a Multiactive Bridge Converter[J].IEEE Transactions on Industrial Electronics,2023,70(11) :11412-11421.
[16] FILSOOF K, LEHN P W.A Bidirectional Modular Multilevel DC-DC Converter of Triangular Structure [J] . IEEE Transactions on Power Electronics,2015,30(1) :54-64.
[17] LIU L, TANG J, YANG S, et al.An Ultra-High Voltage AC/DC Isolated Matrix Converter Applied to V2G Electric Vehicle Charging Piles[J].International Journal of Circuit Theory and Applications,2024(10) :732-754.
[18] KUMAR J, SAMANTA S.A Single-Stage Universal Input Wireless Inductive Power Transfer System with V2G Capability[J].IEEE Journal of Emerging and Selected Topics in Industrial Electronics,2024,5(3) :1017-1029.
[19] KAULURI S , DAMARLA I , SWATHI G , et al.Implementation of Bi-Directional Converter for V2G and G2V Hybrid EV Chargers[C]//2024 2nd International Conference on Cyber Physical Systems,Power Electronics and Electric Vehicles,2024.
[20] WU X, XIAO J, MO Y, et al.Research on Bidirectional Dynamic Wireless Charging System Based on Active Disturbance Rejection Control Strategy[C]//2024 IEEE 6th International Conference on Civil Aviation Safety and Information Technology,2024.
[21] KOHLER S, BIRNBACH S, BAKER R, et al.On the Security of the Wireless Electric Vehicle Charging Communication[C]//2022 IEEE International Conference on Communications,Control,and Computing Technologies for Smart Grids,2022.
[22] WILLRETT U.Standards for Implementing Smart Charging[J].MTZ Worldwide,2020,81(12) :62-65.
[23] WAN M, YU H, HUO Y, et al.Feasibility and Challenges for Vehicle-to-Grid in Electricity Market:A Review[J].Energies,2024,17(3) :1-23.
[24] SONG N O, KWAK B J.International Standard Trend of Vehicle to Grid(V2G) Communication Interface for Wireless Communication and RPT[C]//2019 IEEE Transportation Electrification Conference and Expo, Asia-Pacific,2019.
[25] KIRCHNER S R.OCPP Interoperability: A Unified Future of Charging[J].World Electric Vehicle Journal,2024,15(5) :1-12.
[26] HASAN M K, HABIB A A, SHUKUR Z, et al.Review on cyber-physical and cyber-security system in smart grid: Standards, protocols, constraints,and recommendations[J].Journal of Network and Computer Applications,2023,209 :103540.
[27] 張元星,刁曉虹,李濤永,等. 全球車網互動標準進展研究及相關建議[J] . 電力信息與通信技術,2023,21(2) :13-24.
[28] HAN H, LV Z, HUANG D, et al.Research on charge and discharge power tracking control for V2G system[C]//2017 IEEE 2nd Information Technology,Networking,Electronic and Automation Control Conference,2017.
[29] FAN P, YANG J, KE S, et al.A Multilayer Voltage Intelligent Control Strategy for Distribution Networks with V2G and Power Energy Production-Consumption Units[J].International Journal of Electrical Power & Energy Systems,2024,159:110055.
[30] YU S, PARK K.PUF-Based Robust and Anonymous Authentication and Key Establishment Scheme for V2G Networks[J].IEEE Internet of Things Journal,2024,11(9) :15450-15464.
[31] SHANG Y , LI Z , SHAO Z , et al . Secure and Efficient V2G Scheme Through Edge Computing and Federated Learning[C]//2022 4th International Conference on Smart Power & Internet Energy Systems,2022.
[32] 蔡黎,葛棚丹,代妮娜,等. 電動汽車入網負荷預測及其與電網互動研究進展綜述[J] . 智慧電力,2022,50(7) :96-103.
[33] ZHANG T, HUANG Y, LIAO H, et al.A hybrid electric vehicle load classification and forecasting approach based on GBDT algorithm and temporal convolutional network[J].Applied Energy,2023,351 :121768.
[34] WANG J , ZHANG L , LIU Z , et al . A novel Decomposition-ensemble forecasting system for dynamic dispatching of smart grid with sub-model selection and intelligent optimization[J].Expert Systems with Applications, 2022,201 :117201.
[35] PALANIYAPPAN B, VINOPRABA T, SENTHIL K R.Dynamic pricing for load shifting: Reducing electric vehicle charging impacts on the grid through machine learning-based demand response[J].Sustainable Cities and Society,2024,103:105256.
[36] LU G, ZHANG G, ZHANG J, et al.Impact of Electric Vehicles Access to Distribution Network under V2G Mode[C]//2023 7th International Conference on Smart Grid and Smart Cities, 2023.
[37] LIU Y.Bi-Directional Optimization of V2G Strategy Based on Multi-Objective Optimization:Balancing Grid Load and Reducing Electric Vehicle Charging Costs[J].Science and Technology of Engineering,Chemistry and Environmental Protection,2024,1(7) :1-6.
[38] GAREWAL I K, JHA S R, ERANDE P S, et al.Blockchain-Based Smart Contracts for Decentralized Vehicle-to-Grid(V2G) Load Management[C]//2024 4th International Conference on Ubiquitous Computing and Intelligent Information Systems, 2024.
[39] TAN X, QU G, SUN B, et al.Optimal scheduling of battery charging station serving electric vehicles based on battery swapping[J].IEEE Transactions on Smart Grid,2019, 10(2) :1372-134.
[40] 楊曉東,任帥杰,張有兵,等. 電動汽車可調度能力模型與日內優先調度策略[J] . 電力系統自動化,2017,41(2) :84-93.
[41] 王海鑫,袁佳慧,陳哲,等. 智慧城市車-站-網一體化運行關鍵技術研究綜述及展望[J] . 電工技術學報,2022, 37(1) :112-132.
[42] VARSHOSAZ F, MOAZZAMI M, FANI B, et al.Day-aheadcapacity estimation and power management of a charging station based on queuing theory[J].IEEE Transactions on Industrial Informatics,2019,15(10) :5561-5574.
[43] 吳洲洋,艾欣,胡俊杰. 電動汽車聚合商參與調頻備用的調度方法與收益分成機制[J] . 電網技術,2021,45(3) :1041-1049.
[44] XU X , LI K , WANG F , et al . Evaluating multitimescale response capability of EV aggregator considering users’ willingness[J].IEEE Transactions on Industry Applications,2021,57(4) :3366-3376.
[45] LI G, NING W.Bi-Directional Optimal Scheduling of Electric Vehicles Based on V2G Technology[J].International Journal of Frontiers in Engineering Technology,2024,6(4) :47-52.
[46] 趙玉,徐天奇,李琰,等. 基于分時電價的電動汽車調度策略研究[J] . 電力系統保護與控制,2020,48(11) :92-101.
[47] 王晞,汪偉,王海燕,等. 計及用戶電池損耗的電動汽車分布式兩階段調度策略[J] . 電測與儀表,2022,59(1) :120-126.
[48] 鄭偉,張樂,張建軍,等. 基于虛擬同步的 V2G 調度控制策略[J]. 南方能源建設,2025,12(2) :116-127.
[49] XU X, HAN X, LU L, et al.Challenges and opportnuities toward long-life lithium-ion batteries[J].Journal of Power Sources, 2024,603 :234445.
[50] HUANG Q, ZHANG X, WU F, et al.Degradation of Ni-rich cathode materials:A multiple fields coupling with negative feedback Process[J].Energy Storage Materials,2023,63 :103050.
[51] QU J , JIANG Z , ZHANG J . Investigation on Lithium-ion battery degradation induced by combined effect of current rate and operating temperature during fast charging[J].Journal of Energy Storage,2022,52 :104811.
[52] DUBATTY M, BAURE G, DEVIE A.Durability and Reliability of EV Batteries under Electric Utility Grid Operations : Path Dependence of Battery Degradation[J].Journal of The Electrochemical Society,2018,165(5) :773-783.
[53] LIN X, LI Y, WU W, et al. Advances on two-phase heat transfer for lithium-ion battery thermal management[J].Renewable and Sustainable Energy Reviews,2024,189 :114052.
