Improving power factor for electrical loads, MV and LV networks, and design capacitor panels required for installations.
What you will learn
The concept of power factor and its impact on electricity networks
The influence of the power factor on induction motors and how to improve it
The influence of the power factor on the electrical transformers and how to improve it
Designing the necessary capacitor banks for each component of the electrical networks
Method of installing power capacitors
Advantages of improving power factor in electrical systems
Description
This course focuses on the analytical and design aspects of improving the power factor in all electricity networks and how to apply practical examples to give you the skill side in your design. Through hands-on experience in testing capacitor plates, I provide you with a desalination plant that I have tested and identified malfunctions.
In addition to the design of capacitor plates that need to be placed on electrical distribution transformers and network elements that operate at a voltage of 22 / 0.4 kV and the extent to which the technical losses are reduced by the power factor.
This course focuses on the analytical and design aspects of improving the power factor in all electricity networks and how to apply practical examples to give you the skill side in your design. Through hands-on experience in testing capacitor plates, I provide you with a desalination plant that I have tested and identified malfunctions.
In addition to the design of capacitor plates that need to be placed on electrical distribution transformers and network elements that operate at a voltage of 22 / 0.4 kV and the extent to which the technical losses are reduced by the power factor.
This course focuses on the analytical and design aspects of improving the power factor in all electricity networks and how to apply practical examples to give you the skill side in your design. Through hands-on experience in testing capacitor plates, I provide you with a desalination plant that I have tested and identified malfunctions.
In addition to the design of capacitor plates that need to be placed on electrical distribution transformers and network elements that operate at a voltage of 22 / 0.4 kV and the extent to which the technical losses are reduced by the power factor.
This course focuses on the analytical and design aspects of improving the power factor in all electricity networks and how to apply practical examples to give you the skill side in your design. Through hands-on experience in testing capacitor plates, I provide you with a desalination plant that I have tested and identified malfunctions.
In addition to the design of capacitor plates that need to be placed on electrical distribution transformers and network elements that operate at a voltage of 22 / 0.4 kV and the extent to which the technical losses are reduced by the power factor.
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