System for monitoring and reporting the operability and calibration status of a dissolved oxygen sensor
First Claim
1. In a dissolved oxygen measuring system having an oxygen ion sensor disposed in a process solution, said sensor including an oxygen electrode for producing a first dc signal proportional to the oxygen ion concentration in said solution and a reference electrode for producing a dc reference signal, an electrolyte contacting the oxygen electrode and the reference electrode, and a permeable membrane separating the electrolyte from said solution, a test and monitoring subsystem comprising:
- (a) an electrode disposed in said process solution adjacent said sensor membrane;
(b) time varying electrical signal generator means for producing a time varying signal, said generator having a first output lead connected to a ground, and a second output lead connected to said electrode, said generator thereby producing a time varying electrical current through said solution, said sensor membrane, said electrolyte, and said reference electrode to said ground, said current producing an output time varying signal proportional to an impedance value of said sensor membrane superimposed on said dc reference signal;
(c) cross-correlation means for cross correlating said time varying current with said output time varying signal and said dc reference signal to separate said output time varying signal therefrom; and
(d) means for measuring the value of said separated output time varying signal, said value thereby being proportional to said membrane impedance.
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Abstract
A system for real time, on-line dissolved oxygen (DO) measurement of a process solution provides continuous data of the physical condition of the DO sensor and of the entire system performance. A DO sensor is disposed in the solution with two external electrodes adjacent thereto. A time-varying low level signal is applied to one electrode producing a current through the sensor membrane and grounded electrode, which is detected by a cross-correlation circuit to monitor the membrane impedance. The other electrode is periodically driven by a short, low level dc pulse, producing electrolysis of the water between the two electrodes, and generating a small, repeatable amount of oxygen ions. The sensor response is analyzed providing a direct indication of the sensor and system performance.
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Citations
17 Claims
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1. In a dissolved oxygen measuring system having an oxygen ion sensor disposed in a process solution, said sensor including an oxygen electrode for producing a first dc signal proportional to the oxygen ion concentration in said solution and a reference electrode for producing a dc reference signal, an electrolyte contacting the oxygen electrode and the reference electrode, and a permeable membrane separating the electrolyte from said solution, a test and monitoring subsystem comprising:
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(a) an electrode disposed in said process solution adjacent said sensor membrane; (b) time varying electrical signal generator means for producing a time varying signal, said generator having a first output lead connected to a ground, and a second output lead connected to said electrode, said generator thereby producing a time varying electrical current through said solution, said sensor membrane, said electrolyte, and said reference electrode to said ground, said current producing an output time varying signal proportional to an impedance value of said sensor membrane superimposed on said dc reference signal; (c) cross-correlation means for cross correlating said time varying current with said output time varying signal and said dc reference signal to separate said output time varying signal therefrom; and (d) means for measuring the value of said separated output time varying signal, said value thereby being proportional to said membrane impedance. - View Dependent Claims (2, 3, 4, 5)
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6. A test and monitoring system for providing on-line, real-time monitoring of the condition of a dissolved oxygen sensor having an oxygen electrode, a reference electrode, an electrolyte contacting the oxygen electrode and the reference electrode, and a permeable membrane separating the electrolyte from a solution, said sensor immersed in a process solution, comprising:
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(a) a test electrode immersed in said process solution adjacent said ion sensor membrane; (b) generator means for generating a low level, time varying signal, an output of said generator connected between a system ground and said test electrode for producing a time varying current through said membrane to said reference electrode, and through a resistor to said system ground; (c) means for measuring a voltage drop across said resistor from said time varying current and a dc reference current in which a time varying component is proportional to the impedance of said membrane; (d) an electrolysis electrode immersed in said process solution and spaced apart from said test electrode; (e) a switch connected between said test electrode and said generator for periodically connecting said test electrode to said system ground; (f) a source of direct current connected between said electrolysis electrode and said system ground, said source energized when said switch is connected to said system ground for producing electrolysis in said process solution to thereby release a pulse of a predetermined volume of oxygen ions incident on said sensor, said oxygen ions producing a small increase in dissolved oxygen relative to dissolved oxygen due to the process wherein said oxygen ion sensor produces a voltage pulse superimposed on a process oxygen ion level voltage and wherein said voltage pulse has an amplitude much smaller than said oxygen ion level voltage; and (g) means for comparing the rise time, magnitude, and decay time of said oxygen voltage pulse with calibrated values and for detecting deviations from calibrated values indicative of deterioration of said dissolved oxygen sensor. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A test and monitoring system for providing on-line, real-time monitoring of the condition of a dissolved oxygen sensor having an oxygen electrode, a reference electrode, an electrolyte contacting the oxygen electrode and the reference electrode, and a permeable membrane separating the electrolyte from a solution, said sensor immersed in a process solution, comprising:
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(a) a test electrode immersed in said process solution adjacent said ion sensor membrane; (b) an electrolysis electrode immersed in said process solution and spaced apart from said test electrode; (c) a switch connected between said test electrode and said generator for periodically connecting said test electrode to said system ground; (d) a source of direct current connected between said electrolysis electrode and said system ground, said source energized when said switch is connected to said system ground for producing electrolysis in said process solution to thereby release a pulse of a predetermined volume of oxygen ions incident on said sensor, said oxygen ions producing a small increase in dissolved oxygen relative to dissolved oxygen due to the process wherein said oxygen ion sensor produces a voltage pulse superimposed on a process oxygen ion level voltage and wherein said voltage pulse has an amplitude much smaller than said oxygen ion level voltage; and (e) means for comparing the rise time, magnitude, and decay time of said oxygen voltage pulse with calibrated values thereof, and for detecting deviations from calibrated values indicative of deterioration of said dissolved oxygen sensor. - View Dependent Claims (14, 15, 16, 17)
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Specification