Dual stage degasser

What is claimed is: 1. A degasser comprising: a degassing vessel having a first degassing chamber and one or more recirculating degassing chambers; the first degassing chamber comprising a first sprayer fluidly connectable to a first fluid path for flowing fluid into the degassing vessel, the first sprayer positioned inside the first degassing chamber, a fluid channel positioned inside the first degassing chamber fluidly connected to the one or more recirculating degassing chambers; the one or more recirculating degassing chambers comprising a recirculating outlet positioned in the recirculating degassing chamber for recirculating fluid from the recirculating outlet to a recirculating sprayer positioned inside the recirculating degassing chamber, a vent outlet fluidly connected to in the recirculating degassing chamber for venting gas, and an exit outlet for exiting fluid out of the recirculating degassing chamber; and a bypass flowpath fluidly connected to a recirculation line and the first sprayer for flowing fluid from the recirculating degassing chamber back to the first degassing chamber. 2. The degasser of claim 1 , further comprising one or more recirculating pumps fluidly connected to the recirculating outlet wherein the one or more recirculating pumps pump fluid to the recirculating sprayer via a recirculation line. 3. The degasser of claim 2 , further comprising a heater positioned in the recirculation line or in the first fluid path. 4. The degasser of claim 3 , further comprising a temperature sensor positioned in the recirculation line downstream of the heater. 5. The degasser of claim 1 , further comprising a gas removal pump fluidly connected to the vent outlet wherein the gas removal pump pumps gas out of the recirculating degassing chamber via an exhaust line during degassing. 6. The degasser of claim 1 , further comprising a fluid pump fluidly connected to the exit outlet wherein the fluid pump pumps fluid out of the recirculating degassing chamber via an exit line. 7. The degasser of any one of claims 2 and 5-6 , further comprising a tachometer measuring revolutions per minute of the pump. 8. The degasser of claim 1 , further comprising a baffle positioned between the fluid channel and the exit outlet. 9. The degasser of claim 1 , wherein a nozzle of the first sprayer is more restrictive than a nozzle of the recirculating sprayer. 10. The degasser of claim 1 , wherein a nozzle of the first sprayer is less restrictive than a nozzle of the recirculating sprayer. 11. The degasser of claim 1 , further comprising a fluid level sensor positioned to measure a liquid level in the first degassing chamber and the one or more recirculating degassing chambers. 12. The degasser of claim 11 , wherein the fluid level sensor is a linear array of Hall Effect sensors and a magnetic float. 13. The degasser of claim 1 , further comprising a temperature sensor positioned in the first degassing chamber. 14. The degasser of claim 1 , further comprising a temperature sensor positioned to measure a temperature in the recirculating degassing chamber. 15. The degasser of claim 1 , further comprising at least one pressure sensor; wherein the at least one pressure sensor is configured to determine a headspace pressure of the degassing vessel. 16. The degasser of claim 15 , wherein the at least one pressure sensor is selected from the group consisting of a pressure sensor, an ambient pressure sensor, a gauge pressure sensor, and combinations thereof. 17. A method comprising: flowing fluid from a fluid flow path through the first sprayer into the first degassing chamber of the degasser of claim 1 ; flowing fluid from the first degassing chamber into the recirculating degassing chamber; through the first fluid line and through the recirculating sprayer; and controlling a headspace pressure in the degassing vessel to remove gas from the fluid. 18. The method of claim 17 , wherein the controlling the headspace pressure in the degassing vessel comprises controlling a gas removal pump, controlling a valve connecting the gas removal pump to the recirculating degassing chamber, or a combination thereof. 19. The method of claim 17 , wherein the headspace pressure is controlled based on a dialysate temperature, a dialysate flow rate through a dialysate flow path, a recirculation rate, and a dialysate carbon dioxide concentration.