Combustor for a gas-turbine engine with angled pilot fuel nozzle

The invention claimed is: 1. A combustor for a gas-turbine engine, comprising: a burner head; a combustion chamber disposed downstream of the burner head; a swirler for creating a swirling flow of air in the combustion chamber; and a plurality of fuel nozzles disposed in the burner head for supplying fuel to the combustion chamber, wherein each of the plurality of fuel nozzles is disposed in the burner head such as to give rise to a first angle of exit of the fuel from a downstream face of the burner head with respect to a longitudinal axis of the combustor, the first angle being unequal to 0° such that the fuel nozzle is tilted toward the longitudinal axis, wherein the first angle lies in a first plane passing through the longitudinal axis, wherein each of said plurality of fuel nozzles is disposed in the burner head such as to also give rise to a second angle of exit of the fuel from the downstream face with respect to the first plane, the second angle being greater than or less than 0°, and wherein the second angle lies in a second plane orthogonal to said first plane, and wherein the first angle and second angle varies between individual fuel nozzles of the plurality of fuel nozzles or between groups of said plurality of fuel nozzles. 2. A combustor as claimed in claim 1 , wherein at least one of the plurality of fuel nozzles is configured such as to give rise to a generally cone-shaped spray of fuel entering the combustion chamber, and wherein a third angle between a surface of the cone-shaped spray of fuel and the downstream face is >0°. 3. A combustor as claimed in claim 1 , wherein a third angle between a surface of a cone-shaped spray of the fuel and the downstream face is 0°. 4. A combustor as claimed in claim 2 , wherein the combustor is a can-type combustor and the plurality of fuel nozzles is disposed radially offset from the longitudinal axis of the combustor. 5. A combustor as claimed in claim 4 , wherein the first angle is such that the cone-shaped spray of fuel is inclined toward the longitudinal axis of the combustor. 6. A combustor as claimed in claim 5 , wherein a duct forming part of at least one of the plurality of fuel nozzles is angled. 7. A combustor as claimed in claim 6 , wherein only an end portion of the duct is angled. 8. A combustor as claimed in claim 6 , wherein the whole duct is angled. 9. A combustor as claimed in claim 2 , wherein the combustor is an annular combustor comprising the plurality of fuel nozzles disposed in a circumferentially spaced apart manner. 10. A combustor as claimed in claim 9 , wherein at least one of the plurality of fuel nozzles is a pre-filmer device comprising a fuel duct, a swirler and a pre-filmer element, all of which are disposed at the first and the second angles. 11. A combustor as claimed in claim 9 , wherein at least one of the plurality of fuel nozzles is a pressure-swirl injector device comprising a swirler and a fuel duct, both of which are disposed at the first and the second angles. 12. A combustor as claimed in claim 9 , wherein at least one of the plurality of fuel nozzles is an air-blast injector device comprising two or more coaxially disposed swirlers and filming elements, all of which are disposed at the first and the second angles. 13. A combustor as claimed in claim 9 , further comprising a first further fuel nozzle disposed axially downstream of the plurality of fuel nozzles, the plurality of fuel nozzles being disposed such as to direct a flow of fuel toward the first further fuel nozzle. 14. A combustor as claimed in claim 9 , further comprising a second further fuel nozzle disposed in the burner head radially inwardly or radially outwardly of the plurality of fuel nozzles, the plurality of fuel nozzles being disposed such as to direct the flow of fuel toward the second further fuel nozzle. 15. A combustor as claimed in claim 1 , wherein at least one of the plurality of fuel nozzles is a pilot-fuel nozzle. 16. A combustor for a gas-turbine engine, comprising: a burner head; a combustion chamber disposed downstream of the burner head; a swirler for creating a swirling flow of air in the combustion chamber; and a plurality of fuel nozzles disposed in the burner head for supplying fuel to the combustion chamber, wherein each of the plurality of fuel nozzles is disposed in the burner head such as to give rise to a first angle of exit of the fuel from a downstream face of the burner head with respect to a longitudinal axis of the combustor, the first angle being unequal to 0°, wherein the first angle lies in a first plane passing through the longitudinal axis, wherein each of said plurality of fuel nozzles is disposed in the burner head such as to also give rise to a second angle of exit of the fuel from the downstream face with respect to the first plane, the second angle being unequal to 0°, wherein the second angle lies in a second plane orthogonal to said first plane, wherein individual fuel nozzles of the plurality of fuel nozzles have different first angles and different second angles, wherein at least one of the plurality of fuel nozzles is a pilot fuel nozzle supplying only pilot fuel to the combustion chamber, the pilot fuel nozzle being disposed off-center with respect to the longitudinal axis, and wherein the first angle is configured so as to direct pilot fuel from the pilot fuel nozzle toward the longitudinal axis.