Gas infuser for liquids

What is claimed is: 1. A gas infuser for forming a gas-infused liquid, the gas infuser comprising: a mixing chamber; a liquid injector coupled to the mixing chamber and adapted to pass a liquid into the mixing chamber; and a gas-volume controller coupled to the mixing chamber and configured to pass a gas into the mixing chamber for mixing with the liquid to form the gas-infused liquid, the gas-volume controller including an inlet and an outlet spaced apart from the inlet, a one-piece fitting, the fitting defining the inlet and the outlet, the inlet operatively coupled to a gas supply for receiving the gas, the outlet operatively coupled to the mixing chamber to pass the gas into the mixing chamber, an elongate structure arranged between and separating the outlet from the inlet, a first opening arranged at one end of the elongate structure adjacent the inlet and a second opening arranged at an opposite end of the elongate structure adjacent the outlet, wherein the gas-volume controller is configured to provide a flow rate of gas exiting the outlet for a set average pressure of the gas at the inlet, the gas-volume controller is formed to define a circuitous helical path between the first opening and the second opening to fluidly couple the inlet to the outlet, and the circuitous helical path is configured to regulate the flow rate of the gas exiting the outlet to be substantially constant such that the flow rate is substantially independent of pressure fluctuations from the set average pressure of the gas at the inlet. 2. The gas infuser of claim 1 , wherein the gas-volume controller further includes: a capillary tube coupled to the fitting in fluid communication with the inlet and the outlet, the capillary tube defining the circuitous helical path. 3. The gas infuser of claim 2 , wherein the capillary tube includes a coil and stems extending from opposing ends of the coil, wherein the circuitous helical path is formed through the coil and the stems. 4. The gas infuser of claim 3 , wherein the fitting is formed to include the first opening in fluid communication with the inlet and the second opening in fluid communication with the outlet, and wherein one of the stems of the capillary tube is received in the first opening and the other of the stems is received in the second opening. 5. The gas infuser of claim 1 , further comprising a filter element coupled to the inlet. 6. The gas infuser of claim 1 , further comprising a check valve coupled between the gas-volume controller and the mixing chamber, the check valve configured to block fluid from passing out of the mixing chamber into the gas-volume controller. 7. The gas infuser of claim 1 , further comprising a check valve coupled to the liquid injector, the check valve configured to block fluid from passing out of the mixing chamber through the liquid injector. 8. A gas-volume controller comprising: an inlet; an outlet spaced apart from the inlet; a one-piece fitting, the one-piece fitting defining the inlet and the outlet; the fitting having an elongate structure arranged between and separating the outlet from the inlet; a first opening arranged at one end of the elongate structure adjacent the inlet and a second opening arranged at an opposite end of the elongate structure adjacent the outlet; and a circuitous helical path formed between the first opening and the second opening to fluidly couple the inlet to the outlet, wherein the circuitous helical path is configured to regulate a flow rate of gas exiting the outlet to be substantially constant such that the flow rate is substantially independent of pressure fluctuations from a set average pressure of the gas at the inlet. 9. The gas-volume controller of claim 8 , wherein the gas-volume controller further includes: a capillary tube coupled to the fitting in fluid communication with the inlet and the outlet, the capillary tube defining the circuitous helical path. 10. The gas-volume controller of claim 9 , wherein the capillary tube includes a coil and stems extending from opposing ends of the coil, wherein the circuitous helical path is formed through the coil and the stems. 11. The gas-volume controller of claim 10 , wherein the fitting is formed to include the first opening in fluid communication with the inlet and the second opening in fluid communication with the outlet, and wherein one of the stems of the capillary tube is received in the first opening and the other of the stems is received in the second opening. 12. The gas-volume controller of claim 1 , further comprising a filter element coupled to the inlet. 13. The gas-volume controller of claim 1 , further comprising a check valve coupled to the outlet, the check valve configured to block fluid from passing through the check valve into the gas-volume controller. 14. A gas infuser for forming a gas-infused liquid, the gas infuser comprising: a mixing chamber; a liquid injector coupled to the mixing chamber and adapted to pass a liquid into the mixing chamber; and a gas-volume controller coupled to the mixing chamber and configured to pass a gas into the mixing chamber for mixing with the liquid to form the gas-infused liquid, the gas-volume controller including: a fitting having an inlet and an outlet spaced apart from the inlet, the fitting having an elongate structure arranged between and separating the outlet from the inlet, and a first opening arranged at one end of the elongate structure adjacent the inlet and a second opening arranged at an opposite end of the elongate structure adjacent the outlet; and a capillary tube coupled to the fitting in fluid communication with the first and second openings, wherein the capillary tube is formed to define a circuitous helical path between the first opening and the second opening to fluidly couple the inlet to the outlet and configured to regulate a flow rate of gas that can pass from the inlet to the outlet. 15. The gas infuser of claim 14 , wherein the capillary tube includes a coil and stems extending from opposing ends of the coil, wherein the circuitous helical path is formed through the coil and the stems. 16. The gas infuser of claim 15 , wherein the fitting is formed to include the first opening in fluid communication with the inlet and the second opening in fluid communication with the outlet, and wherein one of the stems of the capillary tube is received in the first opening and the other of the stems is received in the second opening. 17. The gas infuser of claim 14 , further comprising a filter element coupled to the inlet. 18. The gas infuser of claim 14 , further comprising a check valve coupled between the gas-volume controller and the mixing chamber, the check valve configured to block fluid from passing out of the mixing chamber into the gas-volume controller. 19. The gas infuser of claim 14 , further comprising a check valve coupled to the liquid injector, the check valve configured to block fluid from passing out of the mixing chamber through the liquid injector.