Brayton Cycle (Gas Turbine) Ideal vs Real Operation for Power Application Analysis
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60 mins!
Finish in
60 mins!
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What you'll learn
In this course, the student gets familiar with the simple and basic Brayton Cycle and its T - s diagram
Ideal vs real operation and major performance trends
Skills covered in this course
Description
In this course material, the open, simple Brayton Cycle used for stationary power generation is considered.
The Brayton Cycle thermal efficiency is presented only for the air as the working fluid.The thermal efficiency derivation is presented with a simple mathematical approach.The Brayton Cycle is presented in a T - s diagram and its major performance trends (thermal efficiency, specific power output and power output) are plotted in a few figures as a function of compression ratio, gas turbine inlet temperature, working fluid mass flow rate and both isentropic compression and expansion efficiency. It should be noted that this course material does not deal with costs (capital, operational or maintenance).
Table of Contents
Brayton Cycle (Gas Turbine) for Power Application
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Author
His over 35 years engineering experience includes performing analytical modeling and computer modeling of physical properties, power cycles, power cycle components/processes and compressible flow. Also, conducting conceptual design, analysis and evaluation of energy conversion systems for basic and simple power and propulsion cycles.