Applications and Trends of High Performance Computing for Electric Power Systems: Focusing on Smart Grid

The review this article conducts is an extensive analysis of the concept of a smart grid framework with the most sophisticated smart grid innovation and some basic information about smart grid soundness. Smart grids as a new scheme for energy and a future generation framework encourages the expansion of information and progress. The smart grid framework concord will potentially take years. In this article, the focus is on developing smart networks within the framework of electric power systems.

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A Review of the Smart Grid Concept for Electrical Power System

International Journal of Energy Optimization and Engineering ◽

10.4018/ijeoe.2019100105 ◽

2019 ◽

Vol 8 (4) ◽

pp. 105-126

Author(s):

Amam Hossain Bagdadee ◽

Li Zhang

Keyword(s):

Smart Grid ◽

Power Systems ◽

Electric Power ◽

Smart Grids ◽

Electrical Power ◽

Future Generation ◽

Electric Power Systems ◽

Basic Information ◽

Electrical Power System ◽

Extensive Analysis

The review this article conducts is an extensive analysis of the concept of a smart grid framework with the most sophisticated smart grid innovation and some basic information about smart grid soundness. Smart grids as a new scheme for energy and a future generation framework encourages the expansion of information and progress. The smart grid framework concord will potentially take years. In this article, the focus is on developing smart networks within the framework of electric power systems.

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Using cybersecurity as an engineering education approach on computer engineering to learn about Smart Grid technologies and the next generation of electric power systems

2014 IEEE Frontiers in Education Conference (FIE) Proceedings ◽

10.1109/fie.2014.7044336 ◽

2014 ◽

Cited By ~ 3

Author(s):

Daniel Navarro ◽

Jean C. Mendez ◽

Kidany Berrios ◽

Eduardo Ortiz-Rivera ◽

Emmanuel Arzuaga

Keyword(s):

Smart Grid ◽

Power Systems ◽

Engineering Education ◽

Electric Power ◽

Electric Power Systems ◽

Computer Engineering ◽

Next Generation

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Ultrahigh-temperature film capacitors via homo/heterogeneous interfaces

10.21203/rs.3.rs-926898/v1 ◽

2021 ◽

Author(s):

Ming Liu ◽

Rui Lu ◽

Zhonghui Shen ◽

Chunrui Ma ◽

Tingzhi Duan ◽

...

Keyword(s):

High Temperature ◽

Power Systems ◽

Electric Power ◽

High Power ◽

High Performance ◽

Operating Temperature ◽

Electric Power Systems ◽

Fatigue Properties ◽

Simple Method ◽

Ultrahigh Temperature

Abstract High-performance dielectric capacitors are in high demand for advanced electronics and electric power systems. They possess high power density (on the order of Megawatt) and exhibit ultrafast charge/discharge capability (on a microsecond scale) and long-term storage lifetime1-5, and thus they are particularly demanded in pulse power systems such as high-power microwaves, hybrid electric vehicles, and high-frequency inverters. However, their relatively low operating temperature limits their widespread applications6-9. Here, guided by phase-field simulations, we synthesized capacitors with an energy storage density of 55.4 joules per cubic centimeter, energy efficiency of over 82%, and superior thermal stability and fatigue properties at record high operating temperature of 400°C. These ultrahigh-temperature performances are achieved through a relatively simple method of introduction and engineering of interfaces within the capacitors, which greatly improve their high-temperature stability, relaxation behavior, and breakdown strength. Our work not only successfully fabricated capacitors with potential applications in high-temperature electric power systems and electronic technologies but also opens up a promising and general route for designing high-performance electrostatic capacitors through interface engineering.

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