Do not mess with the settings but you may copy its bits for your own use. Made to make low steam water after charging. Pause boiler when not needed. The curved steam lines that look like squeal's are about timings in a compressed state. The rate is 16 steam x time 2.4 between turbines.
Thermal Storage calculations. Direct Energy “aka directly connected” (DE) Indirect Energy “aka” IDE.
One boiler ÷ TES that is 1.1 = #. Stream count 48 / 1.1= 43.63 ÷ 1.1= 39.66
Conversion calculations from high steam to low steam TES. By partitioning your steam stream and pulling the steam off the main line into a second vector stream into turbines on auto balance. You’re removing the 10% loss from the boilers fuel to steam down-stream.
Loss of steam is after the losses calculated after the turbines off auto-balance as they draw the steam off the stream. The calculated should look like this boil = 48 – (T x # of T) ÷ TES. T = turbines of 12 steam for tear “I” or 24 steam of tear “II”
After the active turbines draw the steam the 10% left over from the boil is pulled down into the IDE TES. The first calculation of steam dumped into the IDE TES is 21.81 into normally ideal turbines on auto-balance. Your projected loss of steam from a full boiler is 0.01. A simulated 0.5 “aka 95% of steam is retained,” or calculations are old man units. The TES is replacing the reheater/reboiler for intermediate turbines. After two revolution of the boiler the steam should be x2 being 43.62 at tear “I” and that is plenty of steam to run the turbines on auto-balance with 19.62 stored for the next revolution. That 21.81 is added with a remainder of 17.43 with the next being 39.24. See the trend. Using the steam loopback to use the water out of the cooling towers as a feed as the control will pause the losses to store the steam for timings. Letting the TES be part of the steam loop fixes the issue. What's the worst that could happen as this is a hybrid model. You lose steam in the TES.
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