Method for controlling fuel distribution in a gas turbine engine with multiple combustion zones

What is claimed is: 1. A method for distributing fuel in a gas turbine engine comprising: determining a ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine, wherein determining the ratio of air flow burnt through all combustion zones comprises establishing a total weighted sum of enthalpy per unit mass of combustion products, wherein establishing the total weighted sum of enthalpy per unit mass of combustion products comprises determining a primary weighted sum and a secondary weighted sum, wherein the primary weighted sum is an enthalpy per unit mass of combustion products at a primary combustion temperature in a primary combustion zone, wherein the secondary weighted sum is an enthalpy per unit mass of combustion products at a secondary combustion temperature in a secondary combustion zone; determining a transient fraction of the air flow to be burnt during a rapid transient condition, wherein determining the transient fraction uses a ratio of injector fuel flow and inlet pressure at a combustor; and distributing fuel in the gas turbine engine using the determined ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine to achieve a predetermined flame temperature. 2. The method of claim 1 , further comprising; determining a ratio of a secondary fuel flow to a primary fuel flow in the gas turbine engine using the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine. 3. The method of claim 1 , further comprising; determining a total fuel flow in the gas turbine engine. 4. The method of claim 1 , further comprising; determining a secondary fuel flow and a primary fuel flow from a ratio of secondary fuel flow to primary fuel flow in the gas turbine engine and a total fuel flow in the gas turbine engine. 5. The method of claim 1 , wherein determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining enthalpy per unit mass of air at a turbine inlet temperature. 6. The method of claim 1 , wherein determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining enthalpy per unit mass of air at a combustion inlet temperature. 7. The method of claim 1 , wherein determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining a fuel air ratio at a turbine inlet. 8. The method of claim 1 , wherein determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining a ratio of flow of combustion products to total turbine inlet flow. 9. The method of claim 1 , wherein the total weighted sum of enthalpy per unit mass of combustion products is equal to the primary weighted sum. 10. A gas turbine engine comprising: a controller ( 10 ) configured to transmit fuel distribution signals within the gas turbine engine ( 10 ), wherein the controller determines ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine, wherein determining the ratio of air flow burnt through all combustion zones comprises establishing a total weighted sum of enthalpy per unit mass of combustion products, wherein establishing the total weighted sum of enthalpy per unit mass of combustion products comprises determining a primary weighted sum and a secondary weighted sum, wherein the primary weighted sum is an enthalpy per unit mass of combustion products at a primary combustion temperature, wherein the secondary weighted sum is an enthalpy per unit mass of combustion products at a secondary combustion temperature; wherein the controller is further configured to determine a transient fraction of the air flow to be burnt during a rapid transient condition, wherein determining the transient fraction uses a ratio of injector fuel flow and inlet pressure at a combustor; and wherein the controller distributes fuel in the gas turbine engine using the determined ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine to achieve a predetermined flame temperature. 11. The gas turbine engine of claim 10 , wherein the controller configured to determine a ratio of a secondary fuel flow to a primary fuel flow in the gas turbine engine using the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine. 12. The gas turbine engine of claim 10 , wherein the controller is configured to determine a total fuel flow in the gas turbine engine. 13. The gas turbine engine of claim 10 , wherein the controller is configured to determine a secondary fuel flow and a primary fuel flow from a ratio of secondary fuel flow to primary fuel flow in the gas turbine engine and a total fuel flow in the gas turbine engine. 14. The gas turbine engine of claim 10 , wherein the controller is configured so that determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining enthalpy per unit mass of air at a turbine inlet temperature. 15. The gas turbine engine of claim 10 , wherein the controller is configured so that determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining enthalpy per unit mass of air at a combustion inlet temperature. 16. The gas turbine engine of claim 10 , wherein the controller is configured so that determining the ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining a fuel air ratio at a turbine inlet. 17. The gas turbine engine of claim 10 , wherein the controller is configured so that determining a ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine further comprises determining a ratio of a flow of combustion products to total turbine inlet flow. 18. The gas turbine engine of claim 10 , wherein the total weighted sum of enthalpy per unit mass of combustion products is equal to the primary weighted sum. 19. A method for distributing fuel in a gas turbine engine comprising: determining a ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine for a steady state condition, wherein determining the ratio of air flow burnt through all combustion zones comprises establishing a total weighted sum of enthalpy per unit mass of combustion products; determining a transient fraction of the air flow to be burnt during a rapid transient condition; and distributing fuel in the gas turbine engine using the determined ratio of air flow burnt to total air flow through all combustion zones in the gas turbine engine and the transient fraction of the air flow to be burnt so as to achieve a predetermined flame temperature.