In power systems, there are rules and regulations stating what levels of harmonic distortion is acceptable. One example I've seen for voltage distortion is: THD < 8%, single component harmonic <5%. These values are (hopefully) not random numbers.
From Schneider Electric:
Harmonics are unwanted currents that overload wiring and transformers,
creating heat and, in extreme cases, fire. These currents are harmful
to equipment. They weaken the reliability and shorten the life
expectancy of equipment exposed to the distortion
For induction machines, negative sequence harmonic currents will also cause a negative torque, which of course isn't good.
My question is: How bad is it, really? What can the consequences be if the total harmonic voltage distortion is 10% instead of 8%, if the 7th harmonic is 6% or if the negative 5th harmonic current is 10%. The reason why I ask is: Reducing harmonics does not come for free, is it really worth it in all cases? I know I have to adhere to the regulations, but assuming there were no regulations, what then?
Does anyone have any experience in this area?
Update
I forgot to mention the following in the question: The system I'm studying is not connected to the main grid. It has its own generators, UPS-system and all other necessary infrastructure. The operator and the owner of the system is the same company. The specific regulations I'm mentioning are for such isolated systems, not systems connected to the main grid (could for instance be a vessel).
Update 2
If you have your own power grid, and all the equipment is your own (thus you would need to take all the costs of installation, maintenance etc), then why are there limits and not guidelines when it comes to harmonics? I understand why there are rules regarding for instance short-circuit levels, arc-flash hazard etc. etc.
I also understand regulations regarding voltage drops, as this may lead to motors stalling, loss of excitation and more, I just don't get why there are strict regulations when it comes to harmonics.
How much damage can it do?
Best Answer
Note: I am not an expert in harmonics.
It's valid to ask why the harmonics levels are set to the exact level they are.
I am currently reading AS 61000.3.6 (internationally, IEC 61000.3.6) which is about the nitty-gritty details of how the utilities calculate the harmonics emission limits for MV/HV/EHV customers.
Basically, it goes like this:
Compatibility levels: Equipment is designed to tolerate / be immune to harmonic distortion up to some level, the compatibility level. If we can keep the power system harmonic levels below the compatibility levels, the equipment will work. (The compatibility levels are defined in IEC 61000.2.2 and IEC 61000.2.12.)
The harmonic effects being controlled are long-term effects (overheating of cables, motors, transfomers, capacitors, etc.) over a period of minutes, and short-term effects on electronic devices over a period of seconds.
Planning levels: If we keep the amount of harmonic emissions at 'Timbuktu substation' to '10 units' or less, we will meet the compatibility levels. (IEC 61000.3.6 goes into detail about how to calculate '10 units'.)
Apportionment of planning level to individual customers: Bob's Factory is using '5 units' of power, out of '10 units' available at 'Timbuktu substation'. We will allow Bob's Factory to emit a maximum of '5 units' of harmonics.
The key point is that the objective of the harmonics emission limits is to ensure that the compatibility limits aren't violated.
If each customer respects the harmonics emission limit assigned to them, then the harmonics emission level of the system as a whole will be less than the compatibility level, and everyone's equipment will work. If you exceed your emissions limit, you'll probably bugger it up for everyone.
EDIT:
You ask why there are limits on harmonics, even within your own islanded installation, where you won't be affecting other customers.
From Schneider's Cahier Technique 199 Power Quality we have the following list of negative effects from harmonics:
From Schneider's Cahier Technique No. 152, Harmonic disturbances in networks, and their treatment, we have a few more effects not mentioned above:
Some of these effects might be severe. For example, if harmonics were so bad as to cause interference on a critical control circuit, causing maloperation of that circuit, that would be bad regardless of its effect (or not) on other customers.
So, from this perspective, the limits are there to force you to consider electromagnetic compatibility with vulnerable equipment in your own installation.
Anecdotally, dirty power supplies cause all kinds of intermittent and hard-to-find issues.
My boss told me a story about how they installed a plant full of VSD's (VVVF drives) with no harmonic filtering. The problem was that substations would trip on earth fault (?) seemingly at random when drives were started up - including substations on the far side of the plant to the VSD being started!
Eventually it was determined that the relays were mal-operating due to harmonic currents. From memory, the harmonic current were flowing through the entire plant via earth paths, including structural metalwork and metal cable trays, which is why a VSD on one side of the plant was able to affect a substation on the other side. The electrical paths had to be broken up by replacing some sections of metal tray with plastic trays, and so on.
In the end the problem was only solved after an expensive course of rectification works was performed. Again, the limits are there to ensure that you have to consider harmonics from the start, so this doesn't happen to you!