Oil cooling system for a gas turbine engine
First Claim
1. In a method of operating a gas turbine engine fuel delivery and control system, the steps of:
- pumping fuel at increased pressure from a fuel reservoir;
metering the rate of pressurized fuel flow to the engine;
maintaining the pressurized metered fuel in heat exchange relationship with hot engine oil; and
returning all fuel in excess of the metered fuel back to the fuel reservoir.
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Accused Products
Abstract
A gas turbine engine fuel delivery and control system is provided with means to recirculate all fuel in excess of fuel control requirements back to the aircraft fuel tank, thereby increasing the fuel pump heat sink and decreasing the pump temperature rise without the addition of valving other than that normally employed. A fuel/oil heat exchanger and associated circuitry is provided to maintain the hot engine oil in heat exchange relationship with the cool engine fuel. Where anti-icing of the fuel filter is required, means are provided to maintain the fuel temperature entering the filter at or above a minimum level to prevent freezing thereof. In one embodiment, a divider valve is provided to take all excess fuel from either upstream or downstream of the fuel filter and route it back to the tanks, the ratio of upstream to downstream extraction being a function of fuel pump discharge pressure. In addition, fluid circuitry is provided to route hot engine oil through a plurality of heat exchangers disposed within the system to provide for selective cooling of the oil.
103 Citations
10 Claims
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1. In a method of operating a gas turbine engine fuel delivery and control system, the steps of:
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pumping fuel at increased pressure from a fuel reservoir; metering the rate of pressurized fuel flow to the engine; maintaining the pressurized metered fuel in heat exchange relationship with hot engine oil; and returning all fuel in excess of the metered fuel back to the fuel reservoir.
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2. In a method of operating a gas turbine engine fuel delivery and control system, the steps of:
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pumping fuel at increased pressure from a fuel reservoir; metering the rate of pressurized fuel flow to the engine through a metering means; passing only the metered fuel through a fuel-oil heat exchanger; reducing the fuel temperature entering the heat exchanger by returning all fuel in excess of engine requirements back to the fuel reservoir. - View Dependent Claims (3, 4, 5, 6, 7, 8, 10)
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9. In a method of operating a gas turbine engine fuel delivery and control system, the steps of:
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pumping fuel at increased pressure from a fuel reservoir; passing a first portion of pressurized fuel serially through a fuel-oil heat exchanger, a fuel filter and metering means for controlling the fuel flow rate to the engine; passing a second portion of pressurized fuel in excess of the metered fuel flow to a divider valve; passing a third portion of pressurized fuel in excess of the metered fuel serially through the fuel-oil heat exchanger and fuel filter to the divider valve; discharging all fuel from the divider valve back to the fuel reservoir; and scheduling the flow ratio of the second fuel portion to the third fuel portion such that the amount of heat transferred to the fuel reservoir is no greater than the amount of heat that can be dissipated by the fuel reservoir, and such that the temperature of all the fuel entering the fuel filter is maintained above a mimimum temperature.
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Specification