Powerline Hum: What Causes It & How to Stop It

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SUMMARY

The discussion centers on the phenomenon of powerline hum, primarily attributed to low-level corona discharge from high-voltage (HV) power lines, particularly under humid conditions. Participants confirm that the hum is a 60-cycle sound, likely caused by the physical motion of wires and transformer coverings due to changing electromagnetic fields. The hum can also be modulated at a 120 Hz line rate, especially near substations where transformer cores vibrate. The acoustical radiation efficiency of power lines at these frequencies is low, making the hum less audible at greater distances.

PREREQUISITES
  • Understanding of high-voltage (HV) power line operations
  • Knowledge of electromagnetic fields and their effects
  • Familiarity with corona discharge phenomena
  • Basic principles of acoustics and sound modulation
NEXT STEPS
  • Research the effects of humidity on corona discharge in HV power lines
  • Explore the principles of electromagnetic field modulation
  • Learn about the acoustical properties of materials used in transformers
  • Investigate noise mitigation techniques for power substations
USEFUL FOR

Electrical engineers, power system operators, acoustics specialists, and anyone interested in understanding the causes and implications of powerline hum.

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What exactly is the noise?
 
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I believe it's a low-level corona discharge that can happen with HV power lines, but I'm not sure. It's usually worse when the air is real humid, like in foggy conditions, and the conduction of the air is higher. Kind of like the noise from neon signs. It's not magnetostriction, so it seems like it would have to be associated with the corona discharge from the high voltage at 60/50Hz. Anybody else know for sure?
 
The hum is usually a 60-cycle hum, and is probably caused by the physical motion of the wires or metal coverings on transformers, instigated by the changing EM field, exerting a force on the iron/steel. I expect this is acts like a very inefficient speaker.

On powerlines in the air, there is probably a phase difference between powerlines widely spaced or on different circuits causing the air to act like part of a giant electrostatic speaker (in the hearing range).
 
Last edited:
Because they don't know the words.
 
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Nam_Sapper said:
The hum is usually a 60-cycle hum, and is probably caused by the physical motion of the wires or metal coverings on transformers, instigated by the changing EM field, exerting a force on the iron/steel. I expect this is acts like a very inefficient speaker.

On powerlines in the air, there is probably a phase difference between powerlines widely spaced or on different circuits causing the air to act like part of a giant electrostatic speaker (in the hearing range).

I think this would not be efficient enough to be audible. The current
in a high-voltage transmission line is low and conductor spacing is large.
Furthermore, the acoustical radiation efficiency of a wire at 60 or 120 Hz
is quite low.

If a 750KV transmission line carried 30 MW, the current would be around
40 Amps. While this kind of current would make conductors slap the walls
of a conduit, they would be separated by maybe 30 meters in the transmission
system. Forces would be very low.

It's the hiss of corona discharge modulated at the 120 Hz line rate. It's
not 60 Hz because there are two peaks and zero crossings for each
cycle.

Edit: If you are in or near a power substation, then you are likely hearing the
magnetic cores of the transformers as they vibrate at 120 Hz. They are typically quite loud.
 
Last edited:
Thers another penguin on this board??
 
not big enough for 2?
 
faust9 said:
Because they don't know the words.
OMG. brilliant quip. How did I miss it?
 

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