A renewable energy system for asynchronous motor with speed control

It is quite necessary to build a self-sufficient energy system in the remote region deep down in the desert or an island far in the ocean, because of the high cost of transferring electricity. A very simple system is introduced in this dissertation which comprises of a converter, an inverter and a m...

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Bibliographic Details
Main Author: Chen, Junyan
Other Authors: Wang Peng
Format: Theses and Dissertations
Language:English
Published: 2014
Subjects:
Online Access:http://hdl.handle.net/10356/55303
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Institution: Nanyang Technological University
Language: English
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Summary:It is quite necessary to build a self-sufficient energy system in the remote region deep down in the desert or an island far in the ocean, because of the high cost of transferring electricity. A very simple system is introduced in this dissertation which comprises of a converter, an inverter and a motor speed control with the premise of a stable MPPT. The converter part is made up of a fundamental booster-converter with the usage to boost the voltage from low to high. Boost-converter is not the only converter which can realize the function, but also a lot of other converters can do it; however, for the sake of simplicity and the convenience for understanding, the basic converter, boost-converter, is chosen in this dissertation. The inverter is a bit more complicated than the converter, for it needs to be three-phase. In this dissertation, two kinds of control methods, PR control strategy and SVPWM strategy, are investigated. These twn o methods are the advanced technologies in modem world, although complicated and costly, however more efficient than the traditional controlling method like SPWM. Motor occupies a large part of modem industry work; almost all the production associate with the motor more or less. In this dissertation, the motor speed control is investigated by using PR controlling method; three different frequencies are applied to the motor in order to achieve different mechanical speed. After simulation by using MATLAB/Simulink, the finally results are presented in chapter 5. It can be clearly seen that the speed varies as the frequency changes.