As a continuation of my article on effects of harmonics on electrical equipment, let us provide an example of the effects of harmonic currents on 1-ohm resistive load drawing 1 ampere fundamental current containing 5th, 7th, 11th & 13th harmonic currents. Ideally, the amplitudes of harmonic currents are inversely proportional to their harmonic orders.

The rms current can be calculated as follows

image001

From effects of harmonics on electrical equipment the magnitude of harmonics currents are:

5th Harmonic (250 Hz): 20.0% x I1
7th Harmonic (350 Hz): 14.3% x I1
11th Harmonic (550 Hz): 9.1% x I1
13th Harmonic (650 Hz): 7.7% x I1

where: I1 is the fundamental current which is 1 A as per our example.

image002

It is very clear that the current increased by 3.7% compared to a pure sinusoidal current.

The increase in power due to harmonics will be

image003

This is a 7.46% increase in power consumption.

Assuming that you are using an 2000W electric heater in this system, your additional power consumption will be 2000 x 0.0746 = 149.2 watts. If you are using this for about 3 hours a day during the winter months, that will be
= 149.2 watts x 3 hrs x 30 days x 3 months
= 40,284 watt-hours or 40.28 kwh.

Author

  • A Filipino Engineer, Registered Professional Engineer of Queensland (RPEQ) - Australia, and Professional Electrical Engineer (PEE 2574 - 1st Place April 1991) - Philippines with extensive experience in concept selection, front-end engineering, HV & LV detail design, construction, and commissioning of Hazardous and Non-Hazardous Area electrical installations in water and wastewater pipeline and pumping facilities, offshore platforms, hydrocarbon process plants and pipelines including related facilities. Hazardous area classification and design certification (UEENEEM015B, UEENEEM016B, UEENEEM017B).

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