Emissions measuring system and method
First Claim
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1. A measuring system for use in an emission monitor for measuring emissions from a process comprising:
- a sensor having an active resistance temperature device (RTD) and a reference RTD;
an oscillator for generating an excitation signal;
a transformer having an active winding, a reference winding, a sense winding, and a zero winding;
said active winding connected to said active RTD configured to receive a portion of said excitation signal at a first current so as to produce a first flux, said first current also passing through said active RTD and varying proportionally with changes in a first resistance of said active RTD so that a first voltage across said active RTD remains substantially constant;
said reference winding connected to said reference RTD and configured to receive a portion of said excitation signal at a second current so as to produce a second flux, said second current also passing through said reference RTD and varying proportionally with changes in second resistance of said reference RTD so that a second voltage across said reference RTD remains substantially constant, and wherein said first and second fluxes have opposite senses so as to cancel one another in said transformer when said first and second fluxes are equal;
said sense winding configured to detect a sense flux in said transformer;
a current-to-voltage converter connected to said sense winding and configured for transforming a current produced in said sense winding by said sense flux into a voltage;
an analog-to-digital converter connected to said current-to-voltage converter and configured for transforming said voltage output from said current-to-voltage converter into a digital signal;
a processor connected to said analog-to-digital converter and configured for processing said digital signal into a control signal in accordance with a programmed algorithm;
a multiplying digital-to-analog converter (DAC) for receiving a signal from said oscillator and said control signal from said processor, and outputting a nulling signal from said oscillator based upon said control signal; and
said zero winding configured to receive said nulling signal and generating a nulling flux to cancel said sense flux so as to minimize drift and non-linearity of said transformer;
wherein said control signal is combined in said processor with measured parameter values and calibration factors to determine an emission level value.
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Abstract
A measuring system for use in an emissions monitor and comprising a control mechanism (12) and a sensor mechanism (14). The control mechanism (12) means a differential current passing through an active resistive temperature device RTD (34) with respect to the current flowing through a reference RTD (36) when the sensor mechanism (14) is exposed to a particular gas of interest. The differential current is detected by control mechanism (12) via a four winding transformer (32) having an active winding (A), a reference winding (R), a sense winding (S), and a zero winding (Z). The current delivered to the active RTD (34) passes through the active winding (A) while the current passing through the reference RTD (36) passes through the reference winding (R) so as to produce a differential flux in the core of the transformer (32). The differential flux is detected by the sense winding (S) and is converted into a voltage signal by a current-to-voltage convertor (42). The voltage signal is subsequently converted by an analog-to-digital convertor (44) into a digital signal that is processed by a processor (48). The processor (48) applies a PID algorithm to the digital values in order to derive a control signal proportional to the concentration of the particular gas detected by the sensor mechanism (14). The control signal is combined with the excitation signal generated by the oscillator (20) at a multiplying DAC (28) in order to generate a precision zero signal which is sent to the zero winding (Z) in order to cancel the flux detected by sense winding (S).
26 Citations
20 Claims
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1. A measuring system for use in an emission monitor for measuring emissions from a process comprising:
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a sensor having an active resistance temperature device (RTD) and a reference RTD; an oscillator for generating an excitation signal; a transformer having an active winding, a reference winding, a sense winding, and a zero winding; said active winding connected to said active RTD configured to receive a portion of said excitation signal at a first current so as to produce a first flux, said first current also passing through said active RTD and varying proportionally with changes in a first resistance of said active RTD so that a first voltage across said active RTD remains substantially constant; said reference winding connected to said reference RTD and configured to receive a portion of said excitation signal at a second current so as to produce a second flux, said second current also passing through said reference RTD and varying proportionally with changes in second resistance of said reference RTD so that a second voltage across said reference RTD remains substantially constant, and wherein said first and second fluxes have opposite senses so as to cancel one another in said transformer when said first and second fluxes are equal; said sense winding configured to detect a sense flux in said transformer; a current-to-voltage converter connected to said sense winding and configured for transforming a current produced in said sense winding by said sense flux into a voltage; an analog-to-digital converter connected to said current-to-voltage converter and configured for transforming said voltage output from said current-to-voltage converter into a digital signal; a processor connected to said analog-to-digital converter and configured for processing said digital signal into a control signal in accordance with a programmed algorithm; a multiplying digital-to-analog converter (DAC) for receiving a signal from said oscillator and said control signal from said processor, and outputting a nulling signal from said oscillator based upon said control signal; and said zero winding configured to receive said nulling signal and generating a nulling flux to cancel said sense flux so as to minimize drift and non-linearity of said transformer; wherein said control signal is combined in said processor with measured parameter values and calibration factors to determine an emission level value. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12)
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11. A measuring system for measuring emissions from an industrial process, comprising:
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a sensor mechanism including an active resistive temperature device (RTD) and a reference RTD; a control mechanism connected to said sensor mechanism and configured for measuring a difference in currents through said active and reference RTDs, said control mechanism including an oscillator for generating an excitation signal that is delivered to said sensor mechanism, a four-winding transformer for detecting a remaining flux in a sense winding of said transformer by combining a differential flux associated with said difference in currents through said RTDs and a nulling flux to determine a differential signal via transformer flux cancellation in a summing core of said transformer, processor means for processing said differential signal into a control signal indicative of a concentration of an emission of interest sensed by said sensor mechanism, nulling means for generating said nulling flux from said control signal in order to cancel said remaining flux in said transformer by introducing a nulling signal into a null winding of said transformer; and wherein said control signal is used to determine an emission value. - View Dependent Claims (13, 14, 15, 16)
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17. A method for measuring emissions of a process, comprising the steps of:
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introducing a catalytic heat sensor into an exhaust flow of said process, said catalytic heat sensor including an active resistive temperature device (RTD) and a reference RTD; measuring a first current through said active RTD and a second current through said reference RTD when voltages across said active RTD are approximately equal; determining a differential signal between said first and second currents by passing said currents through a first winding and a second winding, respectively, of a four winding transformer in which said first and second windings have opposite winding senses, thereby producing a differential flux; combining said differential flux and a nulling flux to determine a sense flux in a third winding of said transformer, said sense flux producing said differential signal in said third winding; processing said differential signal with filter means to generate a control signal; processing said control signal into an actual value of a target gas of interest; determining a nulling signal based upon said control signal, and providing said nulling signal to a fourth winding in order to cancel out said differential flux. - View Dependent Claims (18, 19, 20)
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Specification
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Current AssigneeGas Research Institute (GTI Energy)
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Original AssigneeGas Research Institute (GTI Energy)
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InventorsSage, Gerald F.
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Primary Examiner(s)Williams, Hezron E.
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Assistant Examiner(s)Politzer, Jay L.
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Application NumberUS08/580,710Time in Patent Office459 DaysField of Search73/23.31, 73/25.01, 73/25.05, 422/94, 422/95, 422/98US Class Current73/23.31CPC Class CodesG01N 27/122 Circuits particularly adapt...G01N 33/007 Arrangements to check the a...
