Disclaimer: These answers have been entirely based on my experience in building a turbine for AgS and the testing I put into it during building
Much pain was had to obtain these results (See
here)
I'm close to giving up on turbines all together. I have not found a single page that actually explains what all the factors and contributing things are. Just spreadsheets with tables but no real info.
Maybe it will help if I ask a number of concrete questions:
- I have a 9x9x9 but I see in the spreadsheet on active cooled reactors an example of 9x9x3 (3 height). What exactly is the advantage/disadvantage of increasing the heigh (only the height) of a reactor? Both for active as for passive.
Advantage: you can still upgrade your power production if you can't fit it in a wider area
Disadvantage: it's taller
When you have a passive reactor, how do you actually judge how good that reactor will be when it is converted to active?
Not entirely sure, but it will always produce more power, not entirely certain how much more (the one I built recently produced ~25% more power with one turbine built, I could definitely build another)
EDIT: I'm judging this by the heat of the reactor, the more steam it's producing, the more it is cooled, and it's still well above the heat it was stable at before i turned it into an active reactor
When you have a passive reactor that performs very well (like in my case, the 9x9x9 with 24 control rods (checkerboard), enderium fluid which gives me 42000RF/tick) does that also mean it will perform well when active? How and why is there a difference here?
Same as above, active will always produce more power if you use all the steam you're producing
Why is it good to keep heat low? For me that's not intuitive as you need a lot of heat to make steam.
This is where separation between casing heat, and core heat comes into play. Casing heat is intuitive, the higher it is, the more steam, therefore more power. BUT, with the core heat, more heat means higher reaction rates, therefore you use more fuel. The idea of the coolant generally is actually to transfer heat to the outer casing more than to actually cool.
Why is it good to have water from the turbine pumped back into the reactor? Why not just get rid of that water from the steam turbine? What's the advantage?
As the steam is only turning a turbine, it's not actually getting used up, so this means you only need to pump some water in initially and if it's returned (through sufficiently high throughput methods) it will form a closed loop and you never have to worry about water again. But if you're getting rid of the water from the turbine, then you need to come up with
large amounts of water from somewhere (for instance with my one turbine it consumes 1.7 buckets/t)
How can you calculate how much RF/tick a given build of a turbine can produce at maximum? i.e. say you know how many blades there are and the kind of material you're using for the coils.
It's a set ratio. Additional turbine blades (given enough steam) will speed up the rotor, coils provide a drag on the rotor and produce RF based on their material. As far as I can see, it's entirely linear with its ratio, if you have a set-up which works with 20 blades, and 8 coils producing 5k/t, a set-up of 40 blades and 16 coils will produce 10k/t and consume twice the amount of steam.
What is the relevance of the size of the base of a turbine. i.e. 5x5, 7x7 or even larger. How does that affect performance of a turbine?
No effect on performance as far as I can tell, the effect is the cost. A turbine with a 5x5 base will have a single column of empty spaces on each corner, while 7x7 will have four on each corner. So you have to build vastly more parts to have most of the internal space being void.
An Ending note, it seems the reactor only ever produces 50mb/t more than what can be consumed until it reaches its own production threshold, I found with my investigation, my reactor with nothing hooked up to it only ever produced 50mb/t, but as soon as I added a turbine, it began producing what the turbine consumed + 50mb/t.
