Dissolved gas analysis devices, systems, and methods

The invention claimed is: 1. A gas analysis system for determining characteristics of gas dissolved in a fluid of a transformer, the system comprising: an extraction coil for contact with the fluid, the extraction coil including gas- permeable material for receiving dissolved gas, a gas analyzer for determining gas characteristics, the gas analyzer including a gas cell having a cavity for receiving gas for analysis, and a gas circuit formed to include the extraction coil and the gas analyzer to circulate gas. 2. The gas analysis system of claim 1 , wherein the extraction coil includes a number of coil loops each permitting dissolved gas to permeate therein. 3. The gas analysis system of claim 1 , wherein the gas circuit includes a transport conduit fluidly coupled with each of the extraction coil and the gas analyzer to transport gas between the extraction coil and the gas cell for analysis. 4. The gas analysis system of claim 3 , wherein the transport conduit includes a motive pressure source fluidly coupled with the extraction coil to circulate gas through the transport conduit. 5. The gas analysis system of claim 4 , wherein the motive pressure source is fluidly coupled with the extraction coil to provide a lower pressure within the extraction coil relative to a pressure within the cavity of the gas cell. 6. The gas analysis system of claim 3 , wherein the transport conduit includes a supply segment fluidly connected to provide gas from the extraction coil to the gas cell and a return segment fluidly connected to provide gas from the gas cell to the extraction coil. 7. The gas analysis system of claim 1 , wherein the gas analyzer includes a light source and at least one light detector for receiving light from the light source. 8. The gas analysis system of claim 7 , wherein the light source is arranged to pass light from one side of the gas cell through gas within the cavity of the gas cell to another side of the gas cell, and the at least one light detector is arranged on the another side to receive light from the light source. 9. The gas analysis system of claim 1 , wherein the cavity of the gas cell is for receiving dissolved gas extracted from the fluid. 10. The gas analysis system of claim 1 , wherein the gas-permeable material includes a fluoropolymer. 11. The gas analysis system of claim 10 , wherein the gas-permeable material includes a fluoroplastic having at least one of: a yield strength within the range of about 26 MPa to about 29 MPa at about 73° F., a yield strength within the range of about 0.5 MPa to about 13 MPa at about 302° F., a yield strength within the range of about 4 MPa to about 13 MPa at about 428° F., a tensile strength within the range of about 24 MPa to about 29 MPa at about 73° F., a tensile strength within the range of about 1 MPa to about 15 MPa at about 302° F., and a tensile strength within the range of about 3 MPa to about 7 MPa at about 428° F. 12. The gas analysis system of claim 1 , wherein the extraction coil is formed as a conduit having an inner volume for receiving gas permeating through the gas-permeable material. 13. The gas analysis system of claim 12 , wherein a gas species that is both within the inner volume and dissolved in the fluid is in equilibrium. 14. The gas analysis system of claim 3 , wherein the transport conduit is fluidly coupled with the cavity of the gas cell to provide gas for analysis. 15. The gas analysis system of claim 3 , wherein the transport conduit is fluidly coupled with an inner volume of the extraction coil for circulating gas. 16. The gas analysis system of claim 1 , wherein the gas cell includes at least one gas port for communicating gas via a transport conduit of the gas circuit. 17. The gas analysis system of claim 16 , wherein the at least one gas port includes at least one inlet port for communicating gas from the transport conduit of the gas circuit and at least one outlet port for communicating gas to the transport conduit of the gas circuit. 18. The gas analysis system of claim 17 , wherein the at least one inlet port is arranged near a first end of the gas cell and the at least one outlet port is arranged near a second end of the gas cell. 19. The gas analysis system of claim 18 , wherein the first and second ends of the gas cell are opposite each other. 20. The gas analysis system of claim 18 , wherein the gas analyzer includes a light source arranged to pass light between the first and second ends of the gas cell.