Aircraft fuel tank inerting arrangement, method of inerting one or more aircraft fuel tanks, aircraft and software product

The invention claimed is: 1. A computer-implemented method of inerting one or more fuel tanks of an aircraft, the method comprising: providing a temperature value indicative of a temperature at the aircraft's landing destination prior to a time of landing; comparing said temperature value with a predetermined value; and on the basis of said comparison, controlling the provision of inerting gas to the one or more aircraft fuel tanks. 2. The computer-implemented method according to claim 1 in which the temperature value indicative of the temperature at the aircraft's landing destination is a static air temperature. 3. The computer-implemented method according to claim 1 comprising requesting said temperature value from a source of information and receiving said temperature from said source of information. 4. A computer-implemented method of inerting one or more fuel tanks of an aircraft, the method comprising: providing a temperature value indicative of a temperature at the aircraft's destination prior to a time of landing, said temperature value being provided by requesting said temperature value from a source of information and receiving said temperature from said source of information, the source of information comprising a database comprising data providing relationships between temperature and a plurality of aircraft landing destinations; comparing said temperature value with a predetermined value; on the basis of said comparison, controlling the provision of inerting gas to the one or more aircraft fuel tanks. 5. The computer-implemented method according to claim 1 in which the temperature value indicative of the temperature at the aircraft's landing destination is a predicted value. 6. The computer-implemented method according to claim 1 in which the temperature value is a measured value. 7. The computer-implemented method according to claim 1 in which the predetermined value to be compared with the indicative temperature is related to a property of the aircraft fuel. 8. The computer-implemented method according to claim 7 in which the predetermined value is related to a flammability limit of the aircraft's fuel. 9. The computer-implemented method according to claim 1 in which the comparison comprises calculating a difference between the predetermined value and the indicative temperature, wherein if the indicative temperature value is lower than the predetermined value by at least a certain margin, then this is indicative of there being no need for inerting gas. 10. The computer-implemented method according to claim 1 in which control of the provision of inerting gas is further dependent on one or more additional flight-related parameters. 11. The computer-implemented method according to claim 10 in which control of the provision of inerting gas is further dependent on one or more of the following parameters: aircraft altitude, aircraft attitude, time until next descent, time since last ascent, projected duration of next descent, amount of fuel in fuel tanks, gas pressure in fuel tanks, duration of previous descent, oxygen content of gas, nitrogen content of gas, temperature indicative of fuel temperature, fuel temperature, external temperature and temperature of gas in fuel tank. 12. The computer-implemented method according to claim 1 comprising controlling the provision of inerting gas further dependent on one or more of: a temperature indicative of fuel temperature; the time from the last ascent and the time to the next descent and the duration of the immediately-preceding descent and the time until the next descent. 13. A computer-implemented method of inerting one or more fuel tanks of an aircraft, the method comprising: requesting from a source of information a temperature value indicative of a temperature at the aircraft's landing destination prior to a time of landing; receiving from the source of information said temperature value indicative of a temperature at the aircraft's landing destination; comparing said temperature value with a predetermined value related to a property of the aircraft's fuel; and in response to the comparison between said temperature value and the predetermined value, controlling one or more valves and/or pumps arranged to control the supply of inerting gas to the one or more fuel tanks. 14. A computer-implemented method of inerting one or more fuel tanks of an aircraft, the method comprising: requesting from a source of information a temperature value indicative of a temperature at the aircraft's landing destination prior to a time of landing; receiving from the source of information said temperature value indicative of a temperature at the aircraft's landing destination; comparing said temperature value with a predetermined value related to a property of the aircraft's fuel; in response to the comparison between said temperature value and the predetermined value, controlling one or more valves and/or pumps arranged to control the supply of inerting gas to the one or more fuel tanks; the step of requesting from a source of information a temperature value indicative of the temperature at the aircraft's landing destination comprising transmitting a signal to a source of information remote from the aircraft, the signal requesting said temperature, and the step of receiving from the source of information said temperature value indicative of the temperature at the aircraft's landing destination comprises receiving a signal from a source of information remote from the aircraft. 15. A computer-implemented method of inerting one or more fuel tanks of an aircraft, the method comprising: requesting from a source of information a temperature value indicative of a temperature at the aircraft's landing destination prior to a time of landing; receiving from the source of information said temperature value indicative of a temperature at the aircraft's landing destination; comparing said temperature value with a predetermined value related to a property of the aircraft's fuel; in response to the comparison between said temperature value and the predetermined value, controlling one or more valves and/or pumps arranged to control the supply of inerting gas to the one or more fuel tanks; the step of requesting said temperature value from said source of information comprising transmitting instructions to interrogate a database comprising data providing relationships between temperature and a plurality of aircraft landing destinations, and and the step of receiving said temperature value from said source of information comprises receiving said temperature value from said database. 16. A non-transitory software product comprising a series of instructions arranged, when executed on a computer, to perform one or more of the steps of the method of claim 1 . 17. An aircraft fuel tank inerting arrangement comprising; a gas inlet; a gas separation unit in gaseous communication with the gas inlet and configured to remove oxygen from a flow of oxygen-containing gas to produce a flow of oxygen-depleted gas; at least one gas outlet configured to receive oxygen-depleted gas from the gas separation unit and to deliver oxygen-depleted gas to at least one aircraft fuel tank; a gas flow control module for controlling the flow of oxygen-depleted gas to the at least one aircraft fuel tank; and a temperature input module for acquiring a temperature indicative of the temperature at the aircraft's landing destination prior to a time of landing; the gas flow control module being configured to receive an output from the temperature input module dep