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一周后金德俱乐部正式对外宣布与托尼解约。76人客场不敌公牛,恩比德缺席了本场比赛,西蒙斯带队2分惜败对手,遭遇两连败,排名第十,获胜的公牛已收获6连胜,排在倒数第二。湖人会在每个周日的主场比赛中穿着这件球衣。英琦也坦言,所谓“每周4场艺术电影”目前还是一个未来规划,需要用两到三年时间培养艺术电影的放映环境。

Call for Papers from CSEE Journal of Power and Energy Systems

The CSEE Journal of Power and Energy Systems (JPES) is an international quarterly journal published by the Chinese Society for Electrical Engineering (CSEE) in collaboration with CEPRI (China Electric Power Research Institute) and IEEE (The Institute of Electrical and Electronics Engineers) Inc. It is indexed by ESCI, INSPEC and CSAD (Chinese Science Abstracts Database). The journal is dedicated to reporting cutting-edge theories, methods, technologies and applications that will shape the development of power systems in energy transition. The journal provides an international platform for authors to maximize the reach and influence of their contributions.

 

It aims to present the latest research achievements which have significant impacts on the advancement of knowledge in the fields. Articles can be presented in the format of the following:

1. Original research papers.

2. Review articles, which summarize the most up-to-date achievements on a particular topic, and provide foresight concerning future trends.

3. Rapid communications: reporting the latest findings or advances which are deemed to be of significant importance.

 

The topics of focus include but are not limited to:

 

1.    POWER SYSTEMS WITH HIGH PENETRATION OF RENEWABLE ENERGY

 

1) Topology and evolution of power networks with high proportion of renewable energy.

2) Demand and renewable energy forecasting methods.

3) Modeling and coordinated planning for power systems with high proportion of renewable energy.

4) Planning and operation control of active distribution systems and microgrids with high proportion of renewable energy.

5) Stability studies for power systems with high penetration of renewable energy.

6) Optimal operation and control of power systems with high proportion of renewable generation.

 

2.    POWER SYSTEMS INCLUDING HIGH PROPORTION OF POWER ELECTRONICS EQUIPMENT

 

1) Modeling and simulation for power network including high proportion of power electronics equipment.

2) Operation and control for power network including high proportion of power electronics equipment.

3) Security and stability for power network including high proportion of power electronics equipment.

4) Interactions between AC, DC power electronic equipment and AC power grid.

5) New power electronic equipment and its interaction with the AC power grid.

6) Planning and operation control of UHV/EHV AC/DC hybrid power transmission systems.

7) Modeling, simulation and operation control of DC power grid.

 

3.    INTEGRATED ENERGY SYSTEMS

 

1) Modeling, analysis and simulation.

2) Planning and design, energy management and operation control.

3) Markets, business models and energy service.

4) Evaluation method (economic, technical, environmental, etc.).

5) Energy conversion, transmission, storage and application demonstration of source-grid-load integrated energy systems.

6) Energy cyber physical systems with energy, cyber and physical equipment coupling.

7) Energy internet.

8) Energy policy.

 

4. ELECTRIC EQUIPMENT WITH ADVANCED MATERIALS AND TECHNOLOGIES

 

1) Advancedmaterials for energy storage and application of energy storage system.

2) High insulation strength composite material, insulation technology and application of power transmission and distribution line equipment

3) Superconducting material and power technology

4) Sensing technology and big data application

5) Wireless transmission technologies and application of electric vehicles