They need to keep up to speed in order to maintain synchronisation with the grid, assuming they're AC generators.
Precisely my point!
The grid frequency slows down because every turbine-driven synchronous generator attached to it also slows down!
Earlier today it reached 49.9Hz. At that point, every big generator was running slow - at 49.9*60 = 2994rpm
Why were they running slow? Well, suppose one generator's rotor is a uniform cylinder with a mass of 250t, radius 2m, and suppose there are 40 of those in the country. Suppose 100,000 people suddenly decide to turn on their 2kW electric kettles at teatime. We need another 200MW of power to the grid
instantly.
Even highly responsive power stations (hydro is pretty good) don't do '
instant' - so the only way to generate the extra power at such short notice is to tap into that reserve:
Moment of inertia of each rotor = 0.5mr² = 0.5 * 250E3 * 4 = 500E3
Total moment of inertia for all the generators = 250E3 * 40 = 10E6
At 50.0Hz = 3000rpm = 314.0rad/s
Kinetic Energy of all the rotors = 0.5 * 10E6 * 314² = 493E9
At 49.9Hz = 2994rpm = 313.5rad/s
Kinetic Energy of all the rotors = 0.5 * 10E6 * 313.5² =491E9
So the difference in kinetic energy is 2Gj
If it took 10s to slow all those generators down from 3000rpm to 2996rpm...
...that would mean an extra 2GJ / 10s = 200MW being fed into the grid.
That means that the computers in the national grid control centre have 10s to find another 200MW of generating capacity and bring it online. As soon as they do, the generators stop slowing down and the grid frequency stabilises.
There! Have I sufficiently derailed this thread from politics yet?