What is it about?
The paper presents a mathematical model to calculate the thermal efficiency of the steam turbines with superheating, methodology forecasting for the Rankin cycle with superheated steam using Regression equations, MathCad, SPSS, and Statistatica programs.
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Why is it important?
This work presents the formulation of a problem for the method of experiment planning. A turbine unit with three input parameters that influence the value of the output parameter Y (the thermal efficiency of the Steam turbine unit) was studied through the method of experiment planning. Along with that, the first parameter (initial pressure turbine, bar) varied within: 100< x1 <128; the second parameter (the turbine-inlet temperature, °C) varied within: 450 < X2 < 550; the third parameter (the fraction of dryness) varied within: 0.79 < X3< 0.83.
Perspectives
This work presents the formulation of a problem for the method of experiment planning. A turbine unit with three input parameters that influence the value of the output parameter Y (the thermal efficiency of the Steam turbine unit) was studied through the method of experiment planning. Along with that, the first parameter (initial pressure turbine, bar) varied within: 100< x1 <128; the second parameter (the turbine-inlet temperature, °C) varied within: 450 < X2 < 550; the third parameter (the fraction of dryness) varied within: 0.79 < X3< 0.83.
Mushtaq A. Al-Furaiji
ITMO University, Educational Center "Energy Efficient Engineering Systems"
Read the Original
This page is a summary of: Regeneration equations for the Rankine cycle with super-heated steam, IOP Conference Series Earth and Environmental Science, May 2022, Institute of Physics Publishing,
DOI: 10.1088/1755-1315/1029/1/012015.
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