Method and arrangement for controlling fuel supply for a gas turbine

The invention claimed is: 1. A method of controlling a supply of a fuel to a combustor of a gas turbine comprising a compressor up-stream of the combustor, the method comprising: supplying the fuel to the combustor; obtaining a property value of at least one physical property of air used for burning the fuel in the combustor; estimating an estimated heat input (HIengmodel) of the fuel supplied to the combustor based on the property value of the at least one physical property of air; measuring a measured Caloric Value (LCVmea) of the fuel upstream of the combustor; adjusting the estimated heat input (HIengmodel) based on the measured Caloric Value (LCVmea) to obtain an adjusted estimated heat input (HIexpected); and controlling a fuel valve regulating the supply of the fuel to the combustor based on the adjusted estimated heat input (HIexpected) and a demanded heat input (FFDEM), wherein an update interval of estimating the estimated heat input (HIengmodel) is shorter than an update interval of measuring the measured Caloric Value (LCVmea); wherein the at least one physical property of air comprises at least one of: an inlet air pressure (PT 7 ) at a compressor inlet; a bleed valve setting (THBOV) indicative of an amount of air not supplied to the combustor; an inlet air temperature (Tinlet) at the compressor inlet; and an outlet air pressure (PT 8 ) at a compressor outlet, wherein estimating the estimated heat input (HIengmodel) comprises: forming a pressure ratio (PRC 87 ) between the outlet air pressure (PT 8 ) and the inlet air pressure (PT 7 ) and estimating the estimated heat input (HIengmodel) based on the pressure ratio (PRC 87 ), wherein estimating the estimated heat input (HIengmodel) based on the pressure ratio (PRC 87 ) comprises using at least one curve fit based on plural measurements performed on at least one another gas turbine of a same type as the gas turbine and the plural measurements are performed when a portion of the air is bled upstream of the combustor and when no air is bled upstream of the combustor, the at least one curve fit relating the pressure ratio (PRC 87 ) to a measured heat input, and wherein the at least one curve fit is described by a polynomial of second order having a positive first coefficient and a positive second coefficient, and a representation of the at least one curve fit being stored in an electronic storage. 2. The method according to claim 1 , further comprising: comparing the adjusted estimated heat input (HIexpected) with the demanded heat input (FFDEM) to derive an error signal; and controlling the fuel valve regulating the supply of the fuel to the combustor based on the error signal. 3. The method according to claim 1 , wherein the adjusting of the estimated heat input (HIengmodel) comprises calculation of a trimming factor (HIcaltrim) calculated from a difference of an estimated Wobbe index (WIengcal) and a measured Wobbe index (WIcalorimeter), the estimated Wobbe index (WIengcal) being derived by integrating an error signal, the measured Wobbe index (WIcalorimeter) being calculated from the measured Caloric Value (LCVmea) and specific gravity (SGmea) of the fuel, and wherein the adjusted estimated heat input (HIexpected) is obtained by dividing the estimated heat input (HIengmodel) by the trimming factor (HIcaltrim). 4. The method according to claim 1 , wherein the update interval of estimating the estimated heat input (HIengmodel) is between 5 and 100 times as short as the update interval of measuring the measured Caloric Value (LCVmea). 5. The method according to the claim 4 , wherein the adjusting of the estimated heat input (HIengmodel) is performed, if the following criteria are satisfied: the estimated heat input (HIengmodel) remains within +/−5% of the estimated heat input (HIengmodel) of a previous update interval of measuring the measured caloric value (LCVmea), and the measured Caloric Value (LCVmea) remains within a predetermined limit range. 6. The method according to the claim 5 , wherein the criteria further comprises: the measured Caloric Value (LCVmea) remains within +/−5% of the measured Caloric Value (LCVmea) of a previous update interval of measuring the measured caloric value (LCVmea). 7. The method according to claim 1 , wherein the at least one curve fit comprises: a first curve fit obtained based on measuring data, where no air was bled upstream of the combustor, and a second curve fit obtained based on measuring data, where the portion of air was bled upstream of the combustor, wherein based on the first curve fit a first heat input (HIisonobleed) is derived and wherein based on the second curve fit a second heat input (Hiiso10%bleed) is derived, and wherein based on the first heat input (HIisonobleed) and the second heat input (Hiiso10%bleed) the estimated heat input (HIengmodel) is derived. 8. The method according to claim 7 , further comprising: deriving a corrected heat input (HIiso) using a first function comprising the first heat input (HIisonobleed) and the second heat input (HIiso10%bleed), if the pressure ratio (PRC 87 ) exceeds a threshold; and deriving the corrected heat input (HIiso) using a second function comprising at least the first heat input (HIisonobleed), if the pressure ratio (PRC 87 ) does not exceed the threshold; wherein estimating the estimated heat input (HIengmodel) is further based on the corrected heat input (HIiso). 9. The method according to claim 8 , further comprising estimating an estimated portion (bleed %) of air bled upstream of the combustor based on the bleed valve setting (THBOV), wherein the first function comprises the estimated portion (bleed %) of air bled upstream of the combustor. 10. The method according to claim 8 , further comprising: calculating the estimated heat input (HIengmodel) from the corrected heat input (HIiso), the inlet air pressure (PT 7 ) and the inlet air temperature (Tinlet). 11. The method according to claim 2 , further comprising: wherein the fuel is a first fuel, the property value of the at least one physical property of air is a first property value of the at least one physical property of air, the estimated heat input is a first estimated heat input, the measured Caloric Value is a first measured Caloric Value, the adjusted estimated heat input is a first adjusted estimated heat input, the supply of the fuel to the combustor is a supply of the first fuel to the combustor; setting the fuel valve to a flow rate of the first fuel such that the error signal is zero; the method afterwards comprising: supplying a supply of a second fuel to the combustor, the second fuel being different from the first fuel; obtaining a second property value of the at least one physical property of air used for burning the second fuel in the combustor; estimating a second estimated heat input of the second fuel supplied to the combustor based on the second property value of the at least one physical property of air; measuring a second measured Caloric Value or a Wobbe index of the second fuel upstream of the combustor; adjusting the second estimated heat input based on the second measured Caloric Value or the Wobbe index to obtain a second adjusted estimated heat input; and controlling the fuel valve regulating the supply of the second fuel to the combustor based on the second adjusted estimated heat input and the demanded heat input (FFDEM) such that the fuel valve is set to the supply of the second fuel to the combustor is different than the supply of the first fuel to the combustor. 12. An arrangement for controlling a supply of a fuel to a combustor of a gas turbine comprising a compressor