Abstract
Cooling systems with liquid for gas turbines that use the relative motion of engine stator with respect to rotor have been called relative cooling systems. This motion actuates the pump for liquid recirculation and the system is encapsulated within the engine rotor. In this manner, the difficult problem of sealing stator/rotor interfaces at high temperature, pressure and relative velocity is circumvented. A first generation of such systems could be manufactured using existing technologies and would boost thermal efficiency of gas turbines by more than 3% compared to the most advanced air-cooling engines. In the end, relative systems would boost temperatures at turbine inlet to stoichiometric levels and therefore increase thermal efficiency of gas turbines by about 8%. Such systems would recover most heat extracted from turbine for cooling and increase the power to size and power to weight ratio of all gas turbines. The appreciated high reliability of this cooling relies on encapsulation within the rotor and will allow widespread use in both ground and aerospace applications.
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