Systems and methods for creating a seal about a liquid fuel injector in a gas turbine engine

That which is claimed: 1 . A fuel nozzle assembly for a gas turbine engine, comprising: a fuel injector comprising an outer jacket having a first end and a second end with a threaded surface disposed therebetween, wherein the first end of the fuel injector comprises a cylindrical sealing surface; and an annular hub comprising an aperture having a first end and a second end with a threaded surface disposed therebetween, wherein the aperture is configured to at least partially house the fuel injector therein and comprises a conical seat about the first end, wherein the cylindrical sealing surface swages inward along the conical seat to form a seal therebetween as the liquid fuel injector is threaded into the aperture. 2 . The fuel nozzle assembly of claim 1 , wherein the fuel injector comprises an atomizing liquid fuel injector, a plain jet liquid fuel injector, or a simple orifice liquid fuel injector. 3 . The fuel nozzle assembly of claim 1 , wherein the aperture is in communication with a liquid fuel passage. 4 . The fuel nozzle assembly of claim 1 , wherein the outer jacket comprises: an internal passageway between the first end and the second end; and an orifice disposed about the second end, wherein the orifice is narrower than the internal passage. 5 . A fuel nozzle assembly for a gas turbine engine, comprising: a liquid fuel injector comprising an outer jacket having a first end and a second end with a threaded surface disposed therebetween, wherein the first end of the liquid fuel injector comprises a cylindrical sealing surface; and an annular hub comprising an aperture having a first end and a second end with a threaded surface disposed therebetween, wherein the aperture is configured to at least partially house the liquid fuel injector therein and comprises a conical seat about the first end that is configured to mate with the cylindrical sealing surface of the liquid fuel injector as the liquid fuel injector is threaded into the aperture. 6 . The fuel nozzle assembly of claim 5 , wherein the second end of the liquid fuel injector comprises a seating surface. 7 . The fuel nozzle assembly of claim 6 , wherein the second end of the aperture comprises a seating surface configured to mate with the seating surface of the liquid fuel injector as the liquid fuel injector is threaded into the aperture. 8 . The fuel nozzle assembly of claim 5 , wherein the aperture is in communication with a liquid fuel passage. 9 . The fuel nozzle assembly of claim 8 , wherein the liquid fuel passage comprises a fuel plenum therein. 10 . The fuel nozzle assembly of claim 5 , wherein the outer jacket comprises an internal passageway between the first end and the second end, wherein the internal passageway is in communication with an orifice disposed about the second end. 11 . The fuel nozzle assembly of claim 10 , wherein the orifice is narrower than the internal passage. 12 . The fuel nozzle assembly of claim 10 , further comprising a swirler disposed within the internal passage. 13 . The fuel nozzle assembly of claim 5 , wherein the liquid fuel injector comprises an atomizing liquid fuel injector, a plain jet liquid fuel injector, or a simple orifice liquid fuel injector. 14 . A gas turbine engine, comprising: a compressor; a combustor in communication with the compressor, the combustor including a fuel nozzle assembly, comprising: a fuel injector comprising an outer jacket having a first end and a second end with a threaded surface disposed therebetween, wherein the first end of the fuel injector comprises a cylindrical sealing surface; and an annular hub comprising an aperture having a first end and a second end with a threaded surface disposed therebetween, wherein the aperture is configured to at least partially house the fuel injector therein and comprises a conical seat about the first end, wherein the cylindrical sealing surface swages inward along the conical seat to form a seal therebetween as the liquid fuel injector is threaded into the aperture; and a turbine in communication with the combustor. 15 . The gas turbine engine of claim 14 , wherein the second end of the fuel injector comprises a seating surface. 16 . The gas turbine engine of claim 15 , wherein the second end of the aperture comprises a seating surface configured to mate with the seating surface of the fuel injector as the fuel injector is threaded into the aperture. 17 . The gas turbine engine of claim 14 , wherein the aperture is in communication with a liquid fuel passage. 18 . The gas turbine engine of claim 14 , wherein the outer jacket comprises an internal passageway between the first end and the second end, wherein the internal passageway is in communication with an orifice disposed about the second end. 19 . The gas turbine engine of claim 18 , wherein the orifice is narrower than the internal passage. 20 . The gas turbine engine of claim 14 , wherein the liquid fuel injector comprises an atomizing liquid fuel injector, a plain jet liquid fuel injector, or an simple orifice liquid fuel injector.