Equivalent standard volume correction systems for gas meters
First Claim
1. A correction apparatus for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition for at least one parameter of said prevailing conditions, comprising in combination:
- (a) pulse generating means for generating pulses representing uncorrected volume in a ratio proportional to the actual volume of fluid flow at prevailing conditions;
said ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;
(b) sensor transducer means sensitive to the condition parameter for which correction is to be effected and adapted for exposure to the fluid flow at said prevailing conditions, said sensor transducer means being operative to emit an output signal proportional to the absolute value of its measured parameter;
(c) scaling means operative for emitting an output signal corresponding to the product of said sensor transducer means output signal and a constant correlated to a ratio comparison between the pulse to volume ratio generated by said pulse generating means and the pulse to volume ratio of the selected engineering unit; and
(d) divider-counter means operative to divide all of said uncorrected volume pulses by said scaling means output signal and to emit a digital output signal correlated to a volume of fluid flow corrected for the parameter sensitivity of said sensor transducer means.
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Abstract
A self-contained correction unit operable in conjunction with a gas meter measuring an actual gas volume emits a digital output signal correlated to an equivalent standard gas volume therefor by correcting the actual gas volume for prevailing conditions of temperature and/or pressure. A temperature and/or pressure transducer is utilized which when exposed to the gas flow emits an analog voltage signal proportional to absolute values of the sensed parameter. By scaling the transducer output signal to a base condition voltage representing unity, a signal proportional to the desired correction is derived which is converted to a digital signal for supplying to a divider-counter. Within the divider-counter, a series of repetitive pulses corresponding to the actual volume measured by the meter is divided by the digital correction signal to yield a digital output signal of the corrected volume at the base condition for which correction was being sought.
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Citations
22 Claims
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1. A correction apparatus for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition for at least one parameter of said prevailing conditions, comprising in combination:
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(a) pulse generating means for generating pulses representing uncorrected volume in a ratio proportional to the actual volume of fluid flow at prevailing conditions;
said ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;(b) sensor transducer means sensitive to the condition parameter for which correction is to be effected and adapted for exposure to the fluid flow at said prevailing conditions, said sensor transducer means being operative to emit an output signal proportional to the absolute value of its measured parameter; (c) scaling means operative for emitting an output signal corresponding to the product of said sensor transducer means output signal and a constant correlated to a ratio comparison between the pulse to volume ratio generated by said pulse generating means and the pulse to volume ratio of the selected engineering unit; and (d) divider-counter means operative to divide all of said uncorrected volume pulses by said scaling means output signal and to emit a digital output signal correlated to a volume of fluid flow corrected for the parameter sensitivity of said sensor transducer means. - View Dependent Claims (2, 3, 4)
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5. A correction apparatus for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition, comprising in combination:
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(a) pulse generating means for generating pulses representing uncorrected volume in a ratio proportional to the actual volume of fluid flow at prevailing conditions;
said ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;(b) sensor transducer means comprising two sensor transducers, one of which is sensitive to temperature and the other of which is sensitive to pressure with each of said sensor transducers being adapted for exposure to fluid flow at said prevailing conditions and operative to emit an output signal proportional to the absolute value of its measured parameter; (c) divider means receiving the output signals from each of said sensor transducers and operative to emit an output signal corresponding to a quotient of the received signals; (d) scaling means operative for emitting an output signal corresponding to the product of said divider means output signal and a constant correlated to a ratio comparison between the pulse to volume ratio generated by said pulse generating means and the pulse to volume ratio of the selected engineering unit; and (e) divider-counter means operative to divide all of said uncorrected volume pulses by said scaling means output signal and to emit a digital output signal correlated to a volume of fluid flow corrected for both temperature and pressure. - View Dependent Claims (6, 7)
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8. A correction system for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition for at least one parameter of said prevailing conditions, comprising in combination:
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(a) a flow meter adapted to pass the fluid flow; (b) pulse generating means actuated by said flow meter for generating pulses representing uncorrected volume being passed by said meter in a ratio proportional to the actual volume of fluid flow at prevailing conditions;
said ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;(c) sensor transducer means sensitive to the condition parameter for which correction is to be effected and adapted for exposure to the fluid flow at said prevailing conditions, said sensor transducer means being operative to emit an output signal proportional to the absolute value of its measured parameter; (d) scaling means operative for emitting an output signal corresponding to the product of said sensor transducer means output signal and a constant correlated to a ratio comparison between the pulse to volume ratio generated by said pulse generating means and the pulse to volume ratio of the selected engineering unit; and (e) divider-counter means operative to divide all of said uncorrected volume pulses by said scaling means output signal and to emit a digital output signal correlated to a volume of fluid flow corrected for the parameter sensitivity of said sensor transducer means. - View Dependent Claims (9, 10, 11, 12, 15, 16)
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13. A correction system for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition comprising in combination:
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(a) a flow meter adapted to pass the fluid flow; (b) pulse generating means actuated by said flow meter for generating pulses representing uncorrected volume being passed by said meter in a ratio proportional to the actual volume of fluid flow at prevailing conditions; and
ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;(c) sensor transducer means comprising two sensor transducers, one of which is sensitive to temperature and the other of which is sensitive to pressure with each of said sensor transducers being adapted for exposure to fluid flow at said prevailing conditions and operative to emit an output signal proportional to the absolute value of its measured parameter; (d) divider means receiving the output signals from each of said sensor transducers and operative to emit an output signal corresponding to a quotient of the received signals; (e) scaling means operative for emitting an output signal corresponding to the product of said divider means output signal and a constant correlated to a ratio comparison between the pulse to volume ratio generated by said pulse generating means and the pulse to volume ratio of the selected engineering unit; and (f) divider-counter means operative to divide all of said uncorrected volume pulses by said scaling means output signal and to emit a digital output signal correlated to a volume of fluid flow corrected for both temperature and pressure. - View Dependent Claims (14)
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17. A correction method for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition for at least one parameter of said prevailing conditions, the combination comprising the steps of:
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(a) generating pulses representing uncorrected volume in a ratio proportional to the actual volume of fluid flow at prevailing conditions;
said ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;(b) sensing the condition parameter for which correction is to be effected at said prevailing conditions and emitting an output signal proportional to the absolute value of the measured parameter; (c) emitting a scaled output signal corresponding to the product of said sensed condition output signal and a constant correlated to a ratio comparison between said generated pulse to volume ratio of fluid flow and the pulse to volume ratio of the selected engineering unit; and (d) dividing all of said uncorrected volume pulses by said scaled output signal to emit a digital output signal correlated to a volume of fluid flow corrected for said sensed parameter. - View Dependent Claims (18, 19, 22)
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20. A correction method for correcting actual flow volume of fluid flow at prevailing conditions of pressure and temperature to a corresponding value at a standard base condition, the combination comprising the steps of:
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(a) generating pulses representing uncorrected volume in a ratio proportional to the actual volume of fluid flow at prevailing conditions;
said ratio of pulse generation being proportionately greater by at least one order of magnitude relative to a predetermined pulse to volume ratio for a selected engineering unit with which it is to be compared;(b) sensing the condition parameters for each of temperature and pressure measured at said prevailing conditions and emitting separate output signals proportional to each of their absolute values, respectively; (c) dividing the emitted output signals for the measured condition parameters of temperature and pressure one by the other and emitting an output signal corresponding to the quotient thereof; (d) emitting a scaled output signal corresponding to the product of said quotient output signal and a constant correlated to a ratio comparison between said generated pulse to volume ratio of fluid flow and the pulse to volume ratio of the selected engineering unit; and (e) dividing all of said uncorrected volume pulses by said scaled output signal to emit a digital output signal correlated to a volume of fluid flow corrected for both temperature and pressure. - View Dependent Claims (21)
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Specification