Regenerated Cycle
The Regenerated Cycle refers to a thermodynamic cycle that involves the regeneration of heat between the exhaust gas leaving the turbine and the air entering the combustion chamber. This process helps to increase the efficiency of the cycle by recovering some of the heat that would otherwise be lost.
In this cycle, the exhaust gas leaving the turbine is directed through a heat exchanger, where it transfers some of its heat to the air entering the combustion chamber. This preheated air reduces the amount of fuel needed to reach the desired temperature for combustion, resulting in lower fuel consumption and increased efficiency.
The Regenerated Cycle is commonly used in gas turbine power plants and can increase the efficiency of the cycle by up to 10%. This results in significant cost savings and a reduction in greenhouse gas emissions.
Overall, the Regenerated Cycle is an important innovation in thermodynamics and an example of how optimizing heat recovery can lead to more efficient and sustainable energy production.