Energy Saving Design Principle Analysis of Power Electronic Transformation System

Tao Wan

doi:10.4028/www.scientific.net/AMR.760-762.1343

Paper Titles

Design and Implementation of New Multi-Functional Intelligent Single Phase Meters
p.1327

Hardware Design of Microgrid Experimental System Based on Inverter-Interfaced Micro Sources
p.1331

Design a Modified Michelson Interferometer for THz Spectrum Measurement
p.1335

Energy Field Filling of NEIC Broadband Radiated Energy Catalogue Based on Method of Least Squares
p.1339

Energy Saving Design Principle Analysis of Power Electronic Transformation System
p.1343

Study on the Preparation and Implementation of a New Type Digital Electronic Thermometer
p.1348

Current Source Design for 3D Magnetic Field Simulation
p.1354

Design of PowerPC-Based Radar Universal Signal Processing Unit
p.1360

Investigation of Internal Faults for a Direct-Driven PMSG with Maxwell
p.1364

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 760-762Energy Saving Design Principle Analysis of Power...

Energy Saving Design Principle Analysis of Power Electronic Transformation System

Abstract:

Power electronic transformation system is applied widely in industrial control and the application environment is complex. Big, small and medium-sized system power consumption improves continuously, so it is urgent to reduce the system energy consumption problems. This paper proposes a way to reduce the energy consumption of power electronic transformation system based on genetic algorithm. Work frequency regulation and working voltage measurement technology are used in industrial control system and the voltage and frequency produced by system power consumption are calculated. Genetic algorithm is used to calculate the optimal solution. And then achieve the purpose of reducing energy consumption. Experimental results show that this control algorithm can effectively reduce the power consumption of power electronic transformation system in industrial control and has a good effect.

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Periodical:

Advanced Materials Research (Volumes 760-762)

Pages:

1343-1347

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.760-762.1343

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Online since:

September 2013

Authors:

Tao Wan

Keywords:

Dynamic Voltage Regulation, Power Electronic Transformation System, Reduce Energy Consumption

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