Claims
- 1. A sensor for monitoring a level of gaseous combustibles in a combustor which supplies process gas into the environment, the sensor comprising:
a sensor body having an outer shell surrounding a sensor cell; said sensor cell including reference and process gas electrodes on opposite sides thereof for generating a signal therebetween indicative of a difference between oxygen concentrations at the reference and process gas electrodes, respectively; said sensor body carrying electrical leads coupled to said reference electrode and said process electrode for carrying the electrical signal to a signal analyzer; said shell having an opening for receiving the process gas for contact with the process electrode; said process electrode being spaced from said process gas opening to define a volume within the sensor body out of direct line of sight from the flow direction of the flue gas; and a passage within the sensor body in communication with said volume for directing calibration gas to said volume such that sufficient calibration gas is provided the volume to enable calibration of the sensor.
- 2. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said calibration gas passage including a passageway having an outlet for flowing calibration gas in an axial direction generally away from a distal tip of the sensor.
- 3. A sensor according to claim 2 wherein said passageway extends from adjacent the distal tip of the sensor axially across said process gas opening to terminate in said volume.
- 4. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said calibration gas passage including at least one passageway having an outlet port for directing calibration gas in a generally radial inward direction on a side of said process electrode exposed to said volume.
- 5. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said calibration gas passage including an annulus about said sensor cell opening radially inwardly for directing calibration gas in a generally radial inward direction and on a side of said process electrode exposed to said volume.
- 6. A sensor according to claim 1 wherein said calibration gas passage includes a thermocouple adjacent said volume.
- 7. A sensor according to claim 1 wherein said electrical lead coupled to said reference electrode includes an electrical lead wire secured to said reference electrode.
- 8. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said electrical lead coupled to said reference electrode including an electrically conductive element, and a spring carried by said sensor body for biasing said element in an axial direction into electrical contact with said reference electrode.
- 9. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said sensor body including a seat having a surface of revolution, said electrical lead coupled to said reference electrode including a ball having an electrical contact and engaged between said surface of revolution and said reference electrode, enabling the ball to maintain the contact of the ball in electrical contact with the reference electrode.
- 10. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said body including an axially movable element forming part of said electrical lead coupled to said reference electrode, said body including a passage for flowing a reference gas in an axial direction against said axially movable element to maintain electrical contact between said reference electrode and said element.
- 11. A sensor according to claim 1 wherein said sensor body is elongated about an axis and said sensor cell lies generally perpendicular to said axis, said sensor cell being mounted at a closed end of an axial tube with the reference electrode on the inside face of the closed end, an electrical contact element movable axially within said tube and a spring for biasing said element into electrical contact with said reference electrode.
- 12. A sensor according to claim 11 wherein said tube terminates adjacent its opposite end in a flange and at least one seal between said sensor body and said flange for maintaining the reference gas supplied within the tube separate from the process gas within the sensor.
- 13. A sensor according to claim 1 wherein said sensor body includes a channel terminating adjacent said process electrode, a source of compressed gas and a valve for controlling the flow of compressed gas through said channel for periodically cleaning the face of the process electrode.
- 14. A sensor according to claim 1 including means for flowing a cleaning gas across the process electrode to maintain the process electrode substantially clear of contaminants affecting the monitoring of the gaseous combustibles.
- 15. A sensor for monitoring a level of gaseous combustibles in a combustor which supplies process gas into the environment, the sensor comprising:
a sensor body having an outer shell surrounding a sensor cell; said sensor cell including reference and process gas electrodes on opposite sides thereof for generating a signal therebetween indicative of a difference between oxygen concentrations at the reference and process gas electrodes, respectively; said sensor body carrying electrical leads coupled to said reference electrode and said process electrode for carrying the electrical signal to a signal analyzer; said sensor body being elongated about an axis and said sensor cell lying generally perpendicular to said axis, said electrical lead coupled to said reference electrode including through an electrically conductive element, and means carried by said sensor body for biasing said element in an axial direction into electrical contact with said reference electrode.
- 16. A sensor according to claim 15 wherein said biasing means includes a spring.
- 17. A sensor according to claim 15 wherein said biasing means includes a seat having a surface of revolution, said electrical lead coupled to said reference electrode including a ball having an electrical contact and engaged between said surface of revolution and said reference electrode, enabling the ball to maintain the contact of the ball in electrical contact with the reference electrode.
- 18. A sensor according to claim 15 wherein said body includes a passage for flowing a reference gas in an axial direction against said axially movable element to maintain electrical contact between said reference electrode and said element.
- 19. A sensor according to claim 15 wherein said sensor cell is mounted at a closed end of an axial tube with the reference electrode on the inside face of the closed end, an electrical contact element movable axially within said tube and a spring for biasing said element into electrical contact with said reference electrode.
- 20. A sensor according to claim 15 including means for flowing a cleaning gas across the process electrode to maintain the process electrode substantially clear of contaminants affecting the monitoring of the gaseous combustibles.
RELATED APPLICATIONS
[0001] This application is based on Provisional Application Serial No. 60/434,426, filed Dec. 19, 2002, the subject matter of which is incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60434426 |
Dec 2002 |
US |