Fuel injection device for gas turbine

What is claimed is: 1. A fuel injection device, for a gas turbine, that mixes fuel gas and water vapor and injects the fuel gas and the water vapor into a combustion chamber, the fuel injection device comprising: a nozzle housing having a mixing chamber formed inside the nozzle housing, and a gas injection portion provided on downstream side of the mixing chamber; a first introduction passage configured to introduce the fuel gas into the mixing chamber in a circumferential direction of the mixing chamber; and a second introduction passage configured to introduce the water vapor into the mixing chamber in the circumferential direction of the mixing chamber; wherein the gas injection portion includes: a nozzle block; a first gas header chamber formed on an upstream side of the nozzle block; a second gas header chamber formed on a downstream side of the nozzle block; a plurality of communication paths, formed in the nozzle block, through which the first gas header chamber and the second gas header chamber communicate with each other; and a gas injection hole, and wherein the mixing chamber is configured to swirl the fuel gas and the water vapor about an axis of the mixing chamber to mix the fuel gas and the water vapor so that the resultant mixture gas is injected to the combustion chamber from the injection hole, through the first gas header chamber and the second gas header chamber. 2. The fuel injection device for a gas turbine as claimed in claim 1 , comprising a plurality of the first introduction passages and a plurality of the second introduction passages are provided, wherein the first introduction passages and the second introduction passages are alternately arranged in a circumferential direction of the mixing chamber. 3. The fuel injection device for a gas turbine as claimed in claim 1 , comprising a single first supply path configured to supply the fuel gas to a plurality of the first introduction passages, and a single second supply path configured to supply the water vapor to a plurality of the second introduction passages. 4. A fuel injection device, for a gas turbine, that mixes fuel gas and water vapor and injects the fuel gas and the water vapor into a combustion chamber, the fuel injection device comprising: a nozzle housing having a mixing chamber formed inside the nozzle housing: a first introduction passage configured to introduce the fuel gas into the mixing chamber in a circumferential direction of the mixing chamber; a second introduction passage configured to introduce the water vapor into the mixing chamber in the circumferential direction of the mixing chamber; and a center member disposed on an axis of the nozzle housing, wherein the mixing chamber is formed on an outer periphery of the center member, wherein the mixing chamber is configured to swirl the fuel gas and the water vapor about an axis of the mixing chamber to mix the fuel gas and the water vapor. 5. The fuel injection device for a gas turbine as claimed in claim 4 , further comprising a cooling passage configured to supply cooling air to an outer surface of the center member. 6. The fuel injection device for a gas turbine as claimed in claim 5 , wherein a gas injection portion is provided at an end portion of the nozzle housing, the gas injection portion includes a gas injection hole to inject mixed gas from the mixing chamber into the combustion chamber; an air injection hole to inject air which has cooled the center member, and a nozzle block forming an end gas header chamber on an upstream side of the gas injection hole, and the cooling passage is formed in the nozzle block. 7. The fuel injection device for a gas turbine as claimed in claim 6 , wherein an intermediate gas head chamber is formed between the mixing chamber and the nozzle block, and the nozzle block has a plurality of communication paths that allow the intermediate gas head chamber and the end gas header chamber to communicate with each other.