![]() During State 3 to State 4, the gas passes through an adiabatic isentropic turbine that decreases the temperature and pressure of the gas. For a gas turbine, a combustion process adds heat. Next, heat is added at constant pressure in State 2 to State 3. This process increases the temperature, pressure, and density of the gas. The gas undergoes an isentropic, adiabatic compression in State 1 to State 2. The Brayton cycle consists of two adiabatic work transfers and two constant pressure heat transfer heat processes (Fig 2). The working of a gas turbine is based on the thermodynamic Brayton Cycle. ![]() Automotive sector Working principle of a gas turbine.As the direct and mechanical drive for various industries.Major applications of gas turbines are found in: 1: Representation of a gas turbine Applications of a gas turbine
0 Comments
Leave a Reply. |