( Vol 46 , Issue 01 ) | 13 May 2026
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( Vol 46 , Issue 01 ) | 31 May 2026
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering (ISSN:0258-8013) is a monthly peer-reviewed scopus-indexed journal from 1985 to present. The publisher of this journal is Chinese Society for Electrical Engineering. PCSEE committed to gathering and disseminating excellent research achievements. The journal welcomes all kind of research/review/abstract papers regarding Engineering: Electrical and Electronic Engineering.
Scopus Index (2026)
AIM AND SCOPES
Zhongguo Dianji Gongcheng Xuebao/Proceedings Of The Chinese Society Of Electrical Engineering
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Electrical Engineering
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Biological Biosystem Engineering
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Hardware-software co-design and interfacing
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Nanotechnology
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Turbines micro-turbines
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Power quality
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Energy optimization
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HVDC transmission
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Telecommunication Engineering
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Integrated Engineering
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Semiconductor chip
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Advanced control theories and applications
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FACTS devices
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High voltage engineering
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Electric drives
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Power electronics
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Electro-mechanical System Engineering
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Electronic Engineering
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Peripheral equipments
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Machine design and optimization
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Insulation systems
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Electrical machines
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Semiconductor chip
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Electronic Engineering
All Journal Published Here
Zhongguo Dianji Gongcheng Xuebao/Proceedings Of The Chinese Society Of Electrical Engineering
Net Zero Energy Driven Power Sharing for Aggregated Buildings: A Peer Aggregation Model
Under the background of carbon peak and neutrality, the economic and environmental requirements are constantly improving for buildings. The energy optimization and sharing of buildings are of great research significance. Based on this, this paper constructed a peer aggregation model for buildings energy sharing driven by net zero energy. On the whole, the energy sharing framework mainly includes two parts: price equivalence publication and supply-demand information aggregation. The energy sharing center aggregated and analyzed the sharing information of all buildings, generated the sharing
Rotor Eddy Current Loss Analytical Model for High-speed Permanent Magnet Motor With Sleeve Based on Loaded Magnetic Field Analysis Considering Eddy Current Reaction Effect
Based on the precise subdomain method, a rotor eddy current loss analytical model of a high-speed permanent magnet synchronous motor with sleeve under the combined action of armature magnetic field, permanent magnetic field and stator slotting was established. The model also considered the influence of the rotor eddy current reaction caused by the high frequency harmonic magnetic field. This model considered both the stator current and permanent magnet remanence in the slot subdomain and the permanent magnet subdomain. Therefore, the analytical model can be used to calculate the rotor eddy
Prediction of Outlet SO2 Concentration Based on Variable Selection and EMD-LSTM Network
Aiming at the problem that it is difficult to stably control the SO2 concentration at the outlet of the desulfurization system in a coal-fired power plant, a prediction model based on variable selection and empirical mode decomposition (EMD)-long short-term memory network (LSTM) was proposed. First, the relevant variables related to outlet SO2 were determined through mechanism analysis, and the LASSO algorithm was used to remove the redundant variables. Mutual information was used to determine the time delay between input variables and output variables, and time delay compensation was carri
Reactive Power Optimization Model of Multi Energy System Based on Pipeline Pressure Characteristics
For electricity, heat and gas multi-energy systems the coupling relationship between heating and gas system pipe network pressure regulation and grid reactive power balance. This paper proposed a grid reactive power optimization model suitable for multi-energy systems, which based on the reactive power demand characteristics of the heat and gas system energy transmission process. First, the reactive power demand characteristics of the energy transmission process of the multi-energy system, the reactive power output characteristics of various power sources and their uncertainty were studied.
Topology Optimization and Control of the Hybrid DC Converter for Offshore Wind Farms
This paper proposes a hybrid optimization method to optimize the topological structure of an offshore-wind-farm power collection system, in which the cable connection, cable selection and substation location are optimally designed. Firstly, the optimization model was formulated, which integrates cable investment, energy loss and line construction. Then, the Prim algorithm was used to initialize the population. A novel hybrid optimization, named PSAO, based on the merits of the particle swarm optimization (PSO) and aquila optimization (AO) algorithms, was presented for topological structure