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The scope of JEPE is focused on electrical power generation, transmission, distribution and utilization, from the viewpoints of individual power system elements and their integration, interaction and technological advancement. The scope covers modelling of power system elements, their design, analysis of their performance and their implementation in specific aspects typical for modern electrical power and energy systems of various size and complexity. Research focused on new technologies changing power systems and determining their performance and operation is of particular interest. The following list of topics is not intended to be exhaustive, but rather to indicate topics that fall within the journal purview:I.Modern Substations1)Instrumentation and novel sensor technology for advanced monitoring of power systems2)Primary and secondary plant in modern EHV/HV/MV/LV substations3)Substation automation and control4)Power plants automation and control5)Electromagnetic compatibilityII.Traditional Power System Disciplines1)Power system metering2)Power system protection3)Power quality4)Power system dynamic performance (system stability analysis and controls)5)Power System Operations, Planning & Economics6)Energy conversion and Electric machinesIII.Integration of AC and DC grids1)Flexible AC Transmission Systems (FACTS)2)High Voltage DC Transmission and Low Voltage DC Distribution networks3)Mixed AC-DC transmission networks, their interaction (from "micro" to "mega") and technologies for their optimal operation4)DC and AC traction distribution systems for railwaysIV.Green Power and Energy Technologies and Systems1)Renewable Energy Technologies (e.g., wind, biomass, solar, hydro), clean fossil fuel technologies (e.g., carbon capture) and their integration in modern power systems2)Energy storage technologies and system operation and planning3)Interaction and integration of electricity with other energy vectors and sectors (heat, cooling, gas, hydrogen, or transport)4)Technologies to enhance flexibility in future energy systemsV.Smart Transmission Grids1)Wide area monitoring, protection and control (WAMPAC); basic WAMPAC building blocks, including PMUs, communication infrastructure, Data Concentrator solutions, management and processing of big data, knowledge extraction from big data, cyber security2)System Integrity Protection Schemes (SIPS) - Special Protection Schemes; Remedial Action Schemes3)Design of modern Energy Management Systems (EMS) and Distribution Management Systems (DMS), their applications and links between them4)Technologies for real-time dynamic security assessment, situational awareness, prevention of power system blackouts and approaches for power system restoration5)New concepts of robust, secure, reliable, self-healing and resilient power systems6)Technologies and new solutions for ancillary services support in power systemsVI.Power System Transients and Testing1)Transient processes in power systems (slow, fast and very fast transients); electro-magnetic transients (EMT); electro-mechanical transients2)Simulation of power systems transients and power electronics: off-line and real-time simulators, hybrid simulation (stability and EMT) of large scale systems, Co-simulation of power systems and telecommunication infrastructures3)Methodologies and technologies for testing power system components, as well as complex protection and control schemes, including Information and Communication Technology (ICT) testing; hardware in the loop testing4)Harmonics and power quality; solution methods, algorithms and parameter identification.5)Advanced modelling of power system componentsVII.Smart Distributed and Autonomous Energy Systems6)Nanogrids, Microgrids, DC Microgrids, Autonomous, islanded and remote networks7)Smart buildings, district and cities8)Integration of Consumer-Side Resource Systems and Prosumer Resource Systems9)Automated demand response technologies10)Smart distribution networks, active network management and advanced monitoring, control and automation schemes11)AC microgrids and DC microgrids12)Future Power distributions systems in ships and aircrafts13)Electric vehicles and charging networks14)Distributed energy storage systems and DER (Distributed Energy Resources)VIII.Information and Communication infrastructure for future power systems1)Communication technology and communication protocols2)Cyber-security technologies for robust solutions3)Cyber-physical systems modelling and simulation4)Home Area Network (HAN) / Home Energy Management Systems (HEMS)5)AMI Metering SystemIX.Standardisation and new energy policies in using novel technologies for future power systemsJEPE publishes original papers, short contributions and book reviews, as well as selected review articles by invitation and/or approval of the Editor-in-Chief. JEPE encourages publication of themed special issues. Proposals for review articles and special issues are welcome for consideration by the Editor-in-Chief.Mission statement:The International Journal of Electrical Power & Energy Systems (JEPE) is an international journal for dissemination of the newest technologies and theoretical research in the area of electrical power and energy systems, aiming at inspiring interdisciplinary research across academia and industry and contributing to the prosperity of modern societies.
JEPE的范圍主要集中在發電、輸電、配電和利用方面,從各個電力系統元件及其集成、交互和技術進步的角度出發。該范圍包括電力系統元件的建模、設計、性能分析以及在各種規模和復雜度的現代電力和能源系統的特定方面的實施。研究的重點是改變電力系統的新技術,并確定其性能和運行是特別有興趣的。以下主題列表并非詳盡無遺,而是指出期刊范圍內的主題:一、現代變電站1)用于電力系統高級監控的儀器和新型傳感器技術2)現代超高壓、中低壓變電所一、二次廠房3)變電站自動化與控制4)電廠自動化與控制5)電磁兼容性二、傳統電力系統學科1)電力系統計量2)電力系統保護3)電能質量4)電力系統動態性能(系統穩定性分析與控制)5)電力系統運行、規劃與經濟6)能量轉換和電機三、交直流電網一體化1)柔性交流輸電系統(FACTS)2)高壓直流輸電和低壓直流配電網3)交直流混合輸電網絡及其相互作用(從“微”到“兆”)和優化運行的技術4)鐵路直流、交流牽引配電系統四、綠色電力能源技術與系統1)可再生能源技術(如風能、生物質、太陽能、水力發電)、清潔化石燃料技術(如碳捕獲)及其在現代電力系統中的集成2)儲能技術及系統運行規劃3)電力與其他能量載體和部門(熱、冷、氣、氫或運輸)的相互作用和整合4)提高未來能源系統靈活性的技術五、智能電網1)廣域監控、保護和控制(wampac);基本的wampac構建塊,包括PMU、通信基礎設施、數據集中器解決方案、大數據的管理和處理、大數據的知識提取、網絡安全2)系統完整性保護方案(SIPS)-特殊保護方案;補救措施方案3)現代能源管理系統(EMS)和配電管理系統(DMS)的設計及其應用和連接4)實時動態安全評估技術、態勢感知技術、防止電力系統停電技術和電力系統恢復方法5)強大、安全、可靠、自愈和彈性電力系統的新概念6)電力系統輔助服務支持的技術和新解決方案六、電力系統暫態及試驗1)電力系統中的瞬態過程(慢、快和極快瞬態);電磁瞬態(EMT);機電瞬態2)電力系統瞬變與電力電子仿真:離線與實時仿真、大型系統混合仿真(穩定性與EMT)、電力系統與電信基礎設施聯合仿真3)電力系統部件的測試方法和技術,以及復雜的保護和控制方案,包括信息和通信技術(ICT)測試;硬件在環測試4)諧波和電能質量;求解方法、算法和參數識別。5)電力系統部件的高級建模七、智能分布式自主能源系統6)納米電網、微電網、直流微電網、自治、孤島和遠程網絡7)智能建筑、小區、城市8)用戶端資源系統與產消資源系統的集成9)自動化需求響應技術10)智能配電網、主動網絡管理和先進的監控、控制和自動化方案11)交流微電網和直流微電網12)未來船舶和飛機的配電系統13)電動汽車和充電網絡14)分布式儲能系統和分布式能源八、未來電力系統的信息和通信基礎設施1)通信技術和通信協議2)強大解決方案的網絡安全技術3)網絡物理系統建模與仿真4)家庭區域網絡(HAN)/家庭能源管理系統(HEMS)5)AMI計量系統九、未來電力系統采用新技術的標準化和新能源政策通過邀請和/或總編輯的批準,Jepe出版原稿、短文和書評,以及精選的評論文章。杰佩鼓勵出版主題特別刊物。歡迎總編輯審議有關評論文章和專題的建議。使命陳述:《國際電力與能源系統雜志》(JEPE)是一本傳播電力與能源系統領域最新技術和理論研究的國際期刊,旨在激勵學術界和工業界的跨學科研究,為現代社會的繁榮做出貢獻。
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