System for calibrating, monitoring and reporting the status of a pH sensor
First Claim
1. A system for measuring pH of a process solution, and having on-line, real-time calibration, test and monitoring of the condition of a pH sensor of the system during operation, comprising:
- a) a pH sensor having a sensor electrode, a reference electrode, an electrolyte, and a pH-sensitive glass membrane, said sensor, including said glass membrane, immersed in said process solution,b) a first electrode attached to an external surface of said glass membrane immersed in said process solution;
c) a second electrode immersed in said process solution and spaced apart from said first electrode;
d) a source of direct current having its output connected to said first and second electrodes;
e) control means for periodically controlling said direct current source to cause current flow between said first electrode and said second electrode for producing electrolysis in said process solution to thereby slightly change the amount of hydrogen ions incident on said sensor, said change in hydrogen ions producing a change in pH at said membrane relative to the pH due to the process, wherein said pH sensor produces periodic test signal pulses, each having a rise time, a maximum magnitude, and a decay time, said pulses superimposed on a process solution pH signal from said pH sensor;
f) calibration means for determining and storing normal values of a rise time, a maximum amplitude, and a decay time of said change in pH for a properly operating pH sensor; and
g) means for comparing, during operation of said system, said rise times, said magnitudes, and said decay times of said changes in pH to said stored normal values, and detecting deviations from said calibration values indicative of a change in characteristics of said pH sensor.
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Abstract
In a real time, on-line pH measurement of an aqueous solution, a system provides continuous data on the physical condition of the pH sensor. The system includes a pH sensor having a membrane disposed in the process solution with a first external electrode attached to outer surface of the membrane and a second external electrode adjacent the sensor. The two electrodes in the solution are periodically driven by a short time duration dc signal producing a direct current between the two electrodes. The direction of the current through the solution is periodically reversed. This action results in electrolysis of the H2 O molecules of the solution between the two electrodes producing controlled changes in hydrogen ion concentration at the sensor. One current direction produces an increase in pH and the other direction produces a decrease in pH. The sensor response to the controlled changes in pH in the solution is a direct indicator of the complete sensor and system performance and is monitored and analyzed by a computer. If a change in the response to the controlled pH changes is detected, the computer attempts to recalibrate the sensor. Visual readouts and threshold alarm circuits are provided which indicate changes in the sensor response to the pH changes and to a failure of the recalibration attempt.
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Citations
12 Claims
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1. A system for measuring pH of a process solution, and having on-line, real-time calibration, test and monitoring of the condition of a pH sensor of the system during operation, comprising:
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a) a pH sensor having a sensor electrode, a reference electrode, an electrolyte, and a pH-sensitive glass membrane, said sensor, including said glass membrane, immersed in said process solution, b) a first electrode attached to an external surface of said glass membrane immersed in said process solution; c) a second electrode immersed in said process solution and spaced apart from said first electrode; d) a source of direct current having its output connected to said first and second electrodes; e) control means for periodically controlling said direct current source to cause current flow between said first electrode and said second electrode for producing electrolysis in said process solution to thereby slightly change the amount of hydrogen ions incident on said sensor, said change in hydrogen ions producing a change in pH at said membrane relative to the pH due to the process, wherein said pH sensor produces periodic test signal pulses, each having a rise time, a maximum magnitude, and a decay time, said pulses superimposed on a process solution pH signal from said pH sensor; f) calibration means for determining and storing normal values of a rise time, a maximum amplitude, and a decay time of said change in pH for a properly operating pH sensor; and g) means for comparing, during operation of said system, said rise times, said magnitudes, and said decay times of said changes in pH to said stored normal values, and detecting deviations from said calibration values indicative of a change in characteristics of said pH sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for measuring a hydrogen ion concentration of a process solution, including on-line, real-time calibration and monitoring of the condition of a pH sensor of said system, comprising:
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a) a pH sensor including a sensor electrode, a reference electrode, an electrolyte, and a glass membrane, said sensor, including said glass membrane immersed in said process solution; b) a first electrolysis electrode attached to a portion of said pH sensor membrane immersed in said process solution; c) a second electrolysis electrode immersed in said process solution adjacent to and spaced apart from said first electrolysis electrode; d) a source of direct current; e) a switch connected between said current source and said first and second electrolysis electrodes for periodically connecting said first and second electrolysis electrodes to said source of direct current for producing electrolysis in said process solution to thereby periodically change said hydrogen ion concentration in a portion of said process solution incident on said sensor, said changes producing increases and decreases in pH relative to the pH due to said process solution, said switch including control means for sequentially reversing said current; and a) of a rise time, a magnitude, and a decay time of an increase and decrease in pH during an initial calibration of said system to compare a rise time, a magnitude, and a decay time of said increases and decreases in pH during operation of said system with said stored calibrated values of rise time, magnitude, and decay time, an to detect deviations from said calibrated values indicative of a change in characteristics of said pH sensor. - View Dependent Claims (11, 12)
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Specification