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The Hidden Cost of Power Anomalies and the Importance of Identifying Harmonics techrentals
www.techrentals.com.au
Electrical breakdowns are a leading cause of equipment failure, often involving large income losses and business interruptions. Many facilities discover this the hard way, left searching for the underlying cause because they were unaware of an impending breakdown or overload. This expensive trend makes Power Quality Analysis (PQA) of electrical systems crucial for maintaining reliable and efficient power.
To most, power quality refers to how often the lights go out due to power interruptions. However, due to major technological advances in consumer electronics, as well as commercial and industrial applications of solid state electronics, our understanding of power quality has been expanded to include:
Harmonic pollution - Distortions cause extra stress on networks, and negatively impact installation efficiencyReactive power – Loads up supply systems unnecessarily, and also negatively impacts installation efficiency Load imbalance – Particularly prevalent in office building applications. Unbalanced loads can lead to excessive voltage imbalances causing stress on other loads connected to the same network. This can cause an increase of neutral current and neutral-to-earth voltage build-upFast voltage transients – Sags and swells, surges, and reductions that lead to flicker
The above lead to system inefficiency and more seriously, can result in transformers overheating, circuit breakers tripping, or electronically controlled variable speed motor controllers dropping off-line. Of particular concern is harmonic distortion.
Typical Problems & Potential Consequences
Harmonic Distortion
Reactive Power
Load Imbalance
Fast Voltage Transients
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It once was extremely difficult and very time consuming to identify the presence of harmonics in a power system. Most electrical measuring instruments didn’t have the response time required to detect harmonics. Today, high speed analysers are available to identify and record the various frequencies present in a power system. Software also helps to simplify the process of identifying each discrete frequency. These instruments provide an efficient and user-friendly method of identifying troublesome harmonics. Once identified, a range of solutions can be implemented to reduce or eliminate the effects of unwanted harmonic frequencies:
• For circuits generating harmonics, filtering circuits can be designed and installed• For electrical circuits that must carry additional harmonic current, neutral wires with higher current carrying capacities can be installed to minimise overheating and potential fire hazards• For transformers subjected to harmonic loads, the transformer’s load can be reduced to accommodate the additional harmonic current, a larger transformer can be installed, or a transformer designed to handle harmonic currents can be specified
Most circuits in Australia are designed to operate at a frequency of 50 Hz. The frequency of a harmonic current or voltage is a multiple of the original frequency. For example, in a 50 Hz system, the second harmonic would be 100 Hz; the third harmonic would be 150 Hz and so on. Harmonics add to the fundamental frequency in magnitude and can produce peak voltages greater than the line voltage. These voltages can become a problem when they exceed the design voltage of electrical devices.
Original Waveform
Example 50 Hz
Harmonically Distorted Waveform
Third HarmonicExample 150 Hz
Resulting excessive voltage that causes stress on loads
Much of the equipment we use today (computers, automated process control equipment, variable speed drives, solid state power conversion equipment) contains circuits that convert alternating current (ac) to direct current (dc). When energised, these power conversion circuits (themselves very sensitive to power fluctuations and abnormalities) create harmonics that can severely distort the power supply and cause problems for others connected to the same source.
TR13
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1800 632 652 rent@techrentals.com.au www.techrentals.com.au
Whenever changes are planned in an electrical power system it’s important to investigate the susceptibility of the power system to harmonic distortion. These investigations should be made in conjunction with any normal power system studies performed when modifications to an electrical system are anticipated.
Problems with power quality are not, and should not remain, mysteries. Although issues are not always easy to identify, and sometimes require intensive investigation, doing so can ensure optimal reliability and efficiency for your electrical supply.
Contact TechRentals today to enquire about our PQA inventory, and discuss how you can best identify harmonics, voltage swings, flicker, power outages and surges in your power system. Also available, our range of power demand analysers suitable for energy auditing. Hioki PW3198 Power Quality Analyser
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