Swirl torch igniter

What is claimed is: 1. A torch igniter, comprising: a body extending axially from an input end to an output end, the body including an oxidizer inlet channel configured to facilitate oxidizer flow through the body from the input end of the body to the output end of the body; the body including an annular channel formed around a circumference of the body for receiving fuel, the annular channel having a plurality of fuel inlet passages extending inward from the annular channel through the body, each fuel inlet passage of the plurality of fuel inlet passages tangentially intersecting the oxidizer inlet channel, the plurality of fuel inlet passages configured to distribute fuel from the annular channel to the oxidizer inlet channel to create a swirling fuel-oxidizer mixture within the oxidizer inlet channel; a sparking element mounted on and extending radially inward through the body to produce a spark in a path of the swirling fuel-oxidizer mixture to ignite the swirling fuel-oxidizer mixture; and wherein the output end of the body is configured to emit a torch flame when the swirling fuel-oxidizer mixture is ignited. 2. The torch igniter of claim 1 , wherein the sparking element is mounted on the body between the plurality of fuel inlet passages and the output end of the body. 3. The torch igniter of claim 2 , wherein the oxidizer inlet channel is configured to receive the oxidizer comprising oxygen. 4. The torch igniter of claim 3 , wherein the annular channel is configured to receive the fuel comprising methane. 5. The torch igniter of claim 2 , wherein the oxidizer inlet channel is configured to receive the oxidizer in a liquid or gas phase. 6. The torch igniter of claim 2 , wherein the annular channel is configured to receive the fuel in a liquid or gas phase. 7. A torch igniter, comprising: a body extending axially from a first end to a second end; the body including an oxidizer inlet disposed at the first end thereof; the oxidizer inlet configured to facilitate oxidizer flow through the body from the first end to the second end; the body including an annular channel formed around an entire circumference of the body for receiving fuel, the annular channel having a plurality of fuel inlet passages extending inward from the annular channel through the body, each fuel inlet passage of the plurality of fuel inlet passages tangentially intersecting the oxidizer flow through the body, the plurality of fuel inlet passages configured to distribute fuel from the annular channel to create an internal swirling fuel-oxidizer mixture within the body between the first end and the second end; a sparking element mounted on and extending radially inward through the body to produce a spark in a path of the internal swirling fuel-oxidizer mixture to ignite the internal swirling fuel-oxidizer mixture; and wherein the body is configured to emit a torch flame from the second end thereof when the internal swirling fuel-oxidizer mixture is ignited. 8. The torch igniter of claim 7 , wherein the oxidizer inlet is configured to receive the oxidizer comprising oxygen. 9. The torch igniter of claim 8 , wherein the annular channel is configured to receive the fuel comprising methane. 10. The torch igniter of claim 7 , wherein the oxidizer inlet is configured to receive the oxidizer in a liquid or gas phase. 11. The torch igniter of claim 7 , wherein the annular channel is configured to receive the fuel in a liquid or gas phase. 12. A method for igniting a torch flame, comprising: inputting an oxidizer into a first end of an igniter to create an oxidizer flow through the igniter to a second end of the igniter, where the igniter extends axially from the first end to the second end; inputting fuel into an annular channel formed around an entire circumference of the igniter, the annular channel having a plurality of fuel inlet passages extending inward from the annular channel through the igniter, each fuel inlet passage of the plurality of fuel inlet passages tangentially intersecting the oxidizer flow, the plurality of fuel inlet passages configured to distribute the fuel from the annular channel to the oxidizer flow to create an internal swirling fuel-oxidizer mixture within the igniter between the first end of the igniter and the second end of the igniter; and igniting the internal swirling fuel-oxidizer mixture with a sparking element mounted on and extending radially inward through the igniter to produce a torch flame emission from the second end of the igniter. 13. The method of claim 12 wherein the igniter comprises a primary fuel inlet configured to distribute the fuel to the annular channel. 14. The method of claim 13 wherein the primary fuel inlet is configured to receive the fuel comprising methane. 15. The method of claim 13 wherein the primary fuel inlet is configured to receive the fuel in a liquid or gas phase. 16. The method of claim 13 wherein the first end of the igniter includes an oxidizer inlet configured to receive the oxidizer comprising oxygen. 17. The method of claim 16 wherein the oxidizer inlet is configured to receive the oxidizer in a liquid or gas phase. 18. The method of claim 12 wherein the first end of the igniter includes an oxidizer inlet configured to receive the oxidizer comprising oxygen. 19. The method of claim 18 wherein the oxidizer inlet is configured to receive the oxidizer in a liquid or gas phase. 20. The method of claim 12 wherein the sparking element is mounted on the igniter between the plurality of fuel inlet passages and the second end of the igniter.