I was the system engineer for a small islanded island group of generators.
Each generator was under droop control.
We thought about using a swing set for better frequency control but the complications and probable issues were too great for a small system with the quality of operators available to us.
The swing set scheme works well for large systems with a central load dispatch manned by well trained, competent operators.
I respect Davidbeach's position while pointing out that David is an expert with major utilities while my experience is with much smaller systems.
Given my hands on experience with the island plant, I can not answer your question without making assumptions and or suggestions on how your operators run the plant.
Not only droop but the set points of the individual machines makes a difference.
Our system:
All machines at the same droop setting. (3% as I remember)
Frequency generally within 1 Hz. (59 Hz to 60 Hz)
Operating;
The operators checked and recorded all parameters of each machine online every 15 minutes.
kW output, Amps, Volts, Hz, Oil pressure, Temp, etc.
the operators may at that time adjust the Voltage and or Hz.
If the load was rising and getting close to 80% they would start and add another set to the lineup.
If the load was dropping and the total load could be carried by one less set, they would take a set off-line.
FREQUENCY: With operator intervention, the frequency will be much closer to nominal than would be expected by a calculation based on droop alone.
If one machine is at 3% droop it will be running at 61.8 Hz at no load. This is not uncommon on residential standby sets with a lot of A/C load. The set needs over capacity to start the A/Cs, but with no A/Cs online will be very lightly loaded.
The set may never get below about 61 Hz except when an A/C is actually starting. The customers never notice the difference.
Why not set the set point a little lower so that at normal loading, the frequency is 60 Hz?
Because of the Under Frequency Roll Off feature of the Automatic Voltage Regulator.
The UFRO becomes active during overloads which pull the frequency down below 60 Hz or 50 Hz.
Changing the frequency setpoint may compromise the action of the UFRO.
Mixing machines with different droops:
No load droops at 50 Hz; 4% = 2 Hz droop. 5% = 2.5 Hz droop.
If the machines are set for a nominal frequency 50 Hz, the no load frequency of the STg will be 52 Hz and the no load frequency of the DGs will be 52.5 Hz.
At no load, the DGs would be motoring the STG.
If the DGs are set to a no load frequency of 52 Hz, the STG will be at about 80% load when the DGs are at full load.
I don't think that either of these things happens.
It depends on how the operators manage the number of sets online and how what set points that they are actually using, and how often they adjust them.
There may be some reason that the output of the STG is intentionally limited to 80%
Continuing with guesses and assumptions;
There may be an issue with block loading and the setting lets the DGs take a greater share of block loading as the system stabilizes.
The ST may be a little over powered for the generator and 80% of the turbine output corresponds to 100% of the generator end rating.
Depending on the linkage between the governor and the steam valve, the actual droop may not be the same as the droop setting on the governor. eg: 80% output from the governor may be 100% opening of the steam valve.
Varying steam pressure may be a factor.
PID control: Proportional, Integral and Derivative.
Proportional control:- With no load the actual frequency is the set point frequency plus the droop. 50 Hz plus 4% or 2 Hz = 52 Hz.
As the load increases the set slows down and as it slows down the governor increases the fuel or steam to the prime mover.
At 100% load, the set prime mover is supplied enough fuel or steam to maintain 50 Hz.
This works well with sets in parallel and they share the load well.
With multiple sets it is unlikely that the system will be run with all the sets lightly loaded and so the frequency will stay close to 50 Hz.
Davidbeach said:
For almost any application, meeting the load demand is more critical than maintaining absolute frequency control.
I agree completely.
Bill
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"Why not the best?"
Jimmy Carter
