A method of controlling a flow rate of inerting gas introduced into a vented aircraft fuel tank, the method comprising: monitoring changes in a quantity of a fuel in the aircraft fuel tank; monitoring changes in the ambient air pressure external to the aircraft fuel tank; and actively controlling a
A method of controlling a flow rate of inerting gas introduced into a vented aircraft fuel tank, the method comprising: monitoring changes in a quantity of a fuel in the aircraft fuel tank; monitoring changes in the ambient air pressure external to the aircraft fuel tank; and actively controlling a flow rate of inerting gas, {dot over (m)}(I), introduced into the aircraft fuel tank based upon changes in the quantity of fuel in the fuel tank and changes in the ambient air pressure, p. Also, an aircraft including a vented fuel tank, a supply of inerting gas for rendering inert the fuel tank ullage, and a controller for performing the method.
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1. A method of controlling a flow rate of inerting gas introduced into an ullage, U, of a vented aircraft fuel tank, the method comprising: monitoring changes in a quantity of a fuel in the aircraft fuel tank;monitoring changes in an ambient air pressure external to the aircraft fuel tank;calculatin
1. A method of controlling a flow rate of inerting gas introduced into an ullage, U, of a vented aircraft fuel tank, the method comprising: monitoring changes in a quantity of a fuel in the aircraft fuel tank;monitoring changes in an ambient air pressure external to the aircraft fuel tank;calculating a net volume flow rate, Q(UP), of ambient air into the fuel tank ullage, U, via its vent system due to changes in ambient air pressure, P; andactively controlling the flow rate of inerting gas introduced into the aircraft fuel tank based upon changes in the quantity of fuel in the fuel tank and the net volume flow rate, Q(UP) of ambient air into the fuel tank ullage, U, via its vent system due to changes in ambient air pressure, P. 2. A method according to claim 1, wherein the flow rate of inerting gas is a mass flow rate of inerting gas, and wherein the mass flow rate of the inerting gas is controlled such that a mass flow rate of the fuel tank ullage that is vented from the fuel tank is minimized. 3. A method according to claim 2, wherein the mass flow rate of the inerting gas is controlled such that the mass flow rate of the fuel tank ullage that is vented from the fuel tank is substantially zero during ground manoeuvring, cruise and descent operations. 4. A method according to claim 2, wherein the mass flow rate of the inerting gas is controlled such that the mass flow rate of the fuel tank ullage that is vented from the fuel tank is less than 2 g/s throughout all operational ground and flight phases of the aircraft except climb. 5. A method according to claim 1, wherein the step of monitoring changes in the quantity of fuel in the fuel tank includes reading a mass flow rate of fuel being consumed. 6. A method according to claim 1, wherein the net volume flow rate of ambient air into the fuel tank ullage is calculated based upon a rate of change of the ambient air pressure, δP/δt, and an instantaneous fuel tank ullage volume, V(U). 7. A method according to claim 1, further comprising calculating a net volume flow rate, Q(UF), of ambient air into the fuel tank ullage, U, via its vent system due to changes in the ullage volume, V(U), as fuel, F, is removed from the fuel tank, and calculating a total volume flow rate, Q(U), of increasing ullage volume, U, where: Q(U)=Q(UP)+Q(UF). 8. A method according to claim 7, further comprising calculating a mass flow rate, {dot over (m)}(U), of increasing fuel tank ullage based upon the volume flow rate Q(U) and an instantaneous ambient air pressure, P. 9. A method according to claim 1, wherein the flow rate of inerting gas is a mass flow rate of inerting gas, and wherein the mass flow rate of inerting gas, {dot over (m)}(I), introduced into the aircraft fuel tank is actively controlled to be approximately equal to a mass flow rate, {dot over (m)}(U), of increasing fuel tank ullage. 10. A method according to claim 1, wherein the flow rate of inerting gas is a mass flow rate of inerting gas, and wherein the mass flow rate of inerting gas, {dot over (m)}(I), introduced into the aircraft fuel tank is controlled by adjusting a valve. 11. A method according to claim 1, wherein the flow rate of inerting gas is a mass flow rate of inerting gas, and wherein the mass flow rate of inerting gas, {dot over (m)}(I), introduced into the aircraft fuel tank is controlled by adjusting a rate of generation of the inerting gas. 12. A method of controlling a flow rate of inerting gas introduced into an ullage, U, of a vented aircraft fuel tank, the method comprising: monitoring changes in a quantity of a fuel in the aircraft fuel tank;monitoring changes in an ambient air pressure external to the aircraft fuel tank;calculating a net volume flow rate, Q(UF), of ambient air into the fuel tank ullage, U, via its vent system due to changes in the ullage volume, V(U), as fuel, F, is removed from the fuel tank; and,actively controlling the flow rate of inerting gas introduced into the aircraft fuel tank based upon changes in the ambient air pressure, P, and the net volume flow rate, Q(UF), of ambient air into the fuel tank ullage, U, via its vent system due to changes in the ullage volume, V(U), as fuel, F, is removed from the fuel tank. 13. A method according to claim 12, wherein an increasing ullage volume rate, δV(U)/δt, is calculated based upon a mass flow rate of fuel, {dot over (m)}(F), being removed from the fuel tank. 14. A method of controlling a flow rate of inerting gas introduced into an ullage, U, of a vented aircraft fuel tank, the method comprising: monitoring changes in a quantity of a fuel in the aircraft fuel tank;monitoring changes in the ambient air pressure external to the aircraft fuel tank; andactively controlling a mass flow rate of inerting gas introduced into the aircraft fuel tank based upon changes in the quantity of fuel in the fuel tank and changes in ambient air pressure, P,wherein the mass flow rate of inerting gas, {dot over (m)}(I), introduced into the aircraft fuel tank is actively controlled to be greater than a mass flow rate, {dot over (m)}(U), of increasing fuel tank ullage by a value, x, where x is less than 2 g/s. 15. An aircraft including a vented fuel tank, a supply of inerting gas for rendering inert the fuel tank ullage, and a controller for performing the method according to claim 1. 16. An aircraft according to claim 15, further comprising one or more main engines each having a full authority digital engine controller (FADEC) coupled to the controller for performing the method according to claim 1. 17. An aircraft according to claim 15, further comprising an air data system coupled to the controller for performing the method according to claim 1. 18. An aircraft according to claim 15, further comprising an on-board inert gas generator for generating the supply of inerting gas and coupled to the controller for performing the method according to claim 1. 19. An aircraft according to claim 15, further comprising a valve coupled between the supply of inerting gas and the fuel tank, the valve being coupled to the controller for performing the method according to claim 1 and adapted to control a flow of inerting gas to the fuel tank.
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