This tutorial is set by the author to use the CC By-NC-SA protocol.

Steam turbine calculator download link:

https://github.com/kurtchekov/turbineculator/releases

The steam turbine calculator (Turbine Calculator) is used to calculate the best arrangement of steam turbine rotor, making it the largest power generation, but the calculation result is not necessarily the highest efficiency (the ratio of the power generation to the material)

Red area:

Blade Types to be ...: Select the blade type, and the calculation result only contains the selected blades

Stator: Displication

Steel Rotor: Steel rotor

Extreme Rotor: Extreme alloy rotor

SIC Rotor: Silicon carbide rotor

Blue area:

The first card selection is automatic mode (Auto Mode), and the second card selection is manual mode. Generally, the automatic mode is enough

Automatic mode:

High Pressure Steam: High -pressure steam

Low Pressure Steam: Low -voltage steam

Steam: steam

Manual mode:

Expansion: expansion rate

RF/MB: How much RF energy is generated by 1MB steam

Orange area:

Shaft length: rotor axis length

This length: When the length of the rotor is the input value, find the best combination of the rotor blades

All Lengths Up: In the range of the length of the rotor axis from 1 to the input value, find out the best combination of rotor blades and rotor axis length

Calculation results:

Roughly translate the English in the black frame, probably:

When the expansion rate is 4, the length of the rotor axis is 10, the best combination is (from left to right, the entrance to the exit direction):

Disposus, silicon carbide rotor, stator, silicon carbide rotor, stator, silicon carbide rotor, stator, silicon carbide rotor, stator, extreme alloy rotor

Power generation (RF/MB) (the calculation result is not multiplied by coil efficiency): 17.1196 ... (1 point is more than the original 16rf/MB)

Note: If you do not check any blade type, calculate the time program will be stuck to death