Components for breathing circuits

What is claimed is: 1. An elongate flexible expiratory breathing conduit comprising: an inlet connector configured to connect to and receive a flow of expiratory gases from a patient interface component; an outlet connector configured to connect to and deliver the flow of expiratory gases to other equipment, and a single flexible corrugated tube connecting the inlet connector to the outlet connector, the tube formed of a breathable hydrophilic thermoplastic material that allows passage of water vapor from the flow of expiratory gases directly to ambient without allowing passage of liquid water, the single flexible corrugated tube comprising a diameter sufficient to allow an entirety of the flow of expiratory gases from the patient to pass through the tube. 2. The elongate flexible expiratory breathing conduit of claim 1 , wherein the other equipment comprises a filter or a ventilator. 3. The elongate flexible expiratory breathing conduit of claim 1 , wherein the flexible corrugated tube is extruded as a continuous tube. 4. The elongate flexible expiratory breathing conduit of claim 3 , wherein the flexible corrugated tube comprises a longitudinal seam. 5. The elongate flexible expiratory breathing conduit of claim 3 , wherein the entire flexible corrugated tube comprises the material that allows passage of water vapor without allowing passage of liquid water. 6. The elongate flexible expiratory breathing conduit of claim 1 , wherein the flexible corrugated tube comprises a plurality of annular corrugations. 7. The elongate flexible expiratory breathing conduit of claim 6 , wherein the plurality of annular corrugations provide lateral reinforcement against crushing. 8. The elongate flexible expiratory breathing conduit of claim 6 , wherein the plurality of annular corrugations are distributed over the length of the flexible corrugated tube. 9. The elongate flexible expiratory breathing conduit of claim 1 , further comprising a heater wire internal to the single flexible corrugated tube. 10. The elongate flexible expiratory breathing conduit of claim 1 , wherein the inlet connector is configured to connect to a wye connector. 11. The elongate flexible expiratory breathing conduit of claim 10 , wherein the wye connector and a sensor are located at a patient end. 12. The elongate flexible expiratory breathing conduit of claim 10 , wherein the inlet connector connects directly to the wye connector. 13. An elongate flexible expiratory breathing conduit comprising: an inlet connector means which connects to and receives a flow of expiratory gases from a patient interface component; an outlet connector means which connects to and delivers the flow of expiratory gases to other equipment, and a single flexible corrugated tube means connecting the inlet connector means to the outlet connector means, the tube means formed of a breathable hydrophilic thermoplastic material that allows passage of water vapor from the flow of expiratory gases directly to ambient without allowing passage of liquid water, the tube means comprising a diameter sufficient to allow an entirety of the flow of expiratory gases to flow through. 14. The elongate flexible expiratory breathing conduit of claim 13 , wherein the other equipment comprises a filter or a ventilator. 15. The elongate flexible expiratory breathing conduit of claim 13 , wherein the flexible corrugated tube means is extruded as a continuous tube. 16. The elongate flexible expiratory breathing conduit of claim 15 , wherein the flexible corrugated tube means comprises a longitudinal seam. 17. The elongate flexible expiratory breathing conduit of claim 15 , wherein the entire flexible corrugated tube means comprises the material that allows passage of water vapor without allowing passage of liquid water. 18. The elongate flexible expiratory breathing conduit of claim 13 , wherein the flexible corrugated tube means comprises a plurality of annular corrugations. 19. The elongate flexible expiratory breathing conduit of claim 18 , wherein the plurality of annular corrugations provide lateral reinforcement against crushing. 20. The elongate flexible expiratory breathing conduit of claim 18 , wherein the plurality of annular corrugations are distributed over the length of the flexible corrugated tube means. 21. The elongate flexible expiratory breathing conduit of claim 13 , further comprising a heater wire internal to the single flexible corrugated tube means. 22. The elongate flexible expiratory breathing conduit of claim 13 , wherein the inlet connector means is configured to connect to a wye connector. 23. The elongate flexible expiratory breathing conduit of claim 22 , wherein the inlet connector means connects directly to the wye connector. 24. A dual limb breathing system comprising: a wye connector; an inspiratory tube providing a passageway for a flow of respiratory gases for inspiration by a patient through the wye connector; and an expiratory tube providing a passageway for a flow of expiratory gases from the patient through the wye connector, the expiratory tube comprising: an inlet connector configured to connect to and receive the flow of expiratory gases from the wye connector; an outlet connector configured to connect to and deliver the flow of expiratory gases to other equipment, and a single flexible corrugated tube connecting the inlet connector to the outlet connector, the single flexible corrugated tube formed of a breathable hydrophilic thermoplastic material that allows passage of water vapor from the flow of expiratory gases directly to ambient without allowing passage of liquid water, the single flexible corrugated tube comprising a diameter sufficient to allow an entirety of the flow of expiratory gases from the patient to pass through the expiratory tube. 25. The dual limb breathing system of claim 24 , wherein the other equipment comprises a filter or a ventilator.