Venturi flowmeter for use in an exhaust sampling apparatus
First Claim
1. An venturi metering device for measuring the flow of an exhaust gas in a conduit, the venturi metering device comprising:
- a housing having a longitudinal axis, an entrance section, a throat section, and an exit section, the throat section having a smaller diameter than the entrance and exit sections;
a pressure sensing means for sensing the pressure in the throat section and the entrance section, and for producing an electrical output that characterizes the pressure that the pressure sensing means senses;
a computer for computing the flow rate through the housing using the electrical output, the computer being operably connected to the pressure sensing means for receiving the electrical output;
an entrance heater operably positioned adjacent the entrance section; and
an exit heater operably positioned adjacent the exit section, the computer being operably connected to the entrance and exit heaters for controlling the temperature of the entrance and exit heaters to flash vaporize any condensed moisture that flows into the housing.
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Abstract
An apparatus for sampling the emission content of an exhaust gas from an exhaust source has an exhaust inlet adapted for connecting the exhaust source with a venturi metering device for measuring the flow rate of the exhaust gas. The venturi metering device includes a housing having an entrance section, a throat section, and an exit section, the throat section having a smaller diameter than the entrance and exit sections. The housing includes first and second pressure transducers that produce an electrical output that characterizes the pressure that the pressure sensing means senses, the electrical outlet enabling a computer of the venturi metering device to accurately measure the pulsating flow of the exhaust gas in both directions.
8 Citations
9 Claims
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1. An venturi metering device for measuring the flow of an exhaust gas in a conduit, the venturi metering device comprising:
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a housing having a longitudinal axis, an entrance section, a throat section, and an exit section, the throat section having a smaller diameter than the entrance and exit sections;
a pressure sensing means for sensing the pressure in the throat section and the entrance section, and for producing an electrical output that characterizes the pressure that the pressure sensing means senses;
a computer for computing the flow rate through the housing using the electrical output, the computer being operably connected to the pressure sensing means for receiving the electrical output;
an entrance heater operably positioned adjacent the entrance section; and
an exit heater operably positioned adjacent the exit section, the computer being operably connected to the entrance and exit heaters for controlling the temperature of the entrance and exit heaters to flash vaporize any condensed moisture that flows into the housing. - View Dependent Claims (3, 4, 5)
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2. The venturi metering device of claim 1 wherein the entrance section and the exit section each including at least one annular condensation furrow adjacent to the entrance and exit heaters, respectively, the at least one annular condensation furrow of the entrance and exit sections functioning in conjunction with the entrance and exit heaters to flash vaporize any condensed moisture that flows into the housing.
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6. The venturi metering device of claim 5 further comprising a cowling positioned within the heat shielded housing and around the housing, the cowling being shaped to direct the flow of air from the fan means down the length of the housing.
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6-1. An apparatus for sampling the emission content of an exhaust gas from an exhaust source, the apparatus comprising:
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an exhaust inlet adapted for connection with the exhaust source;
a venturi metering device for measuring the flow of the exhaust gas from the exhaust source, the venturi metering device having a housing having a longitudinal axis, an entrance section, a throat section, and an exit section, the throat section having a smaller diameter than the entrance and exit sections, the entrance section being adapted for connection with the exhaust inlet;
a pressure sensing means for sensing the pressure in the throat section and the entrance section, and for producing an electrical output that characterizes the pressure that the pressure sensing means senses;
an entrance heater operably positioned adjacent the entrance section; and
an exit heater operably positioned adjacent the exit section;
a dilution air inlet adapted to be connected with the exit section to provide a mixture of exhaust and dilution air;
a flow confining path for establishing a flow of the mixture from the dilution air inlet to a flow rate measuring means for measuring the flow rate of the mixture, the flow confining path including a sampling zone;
a sampling means for extracting a sample of the mixture flowing through the sampling zone;
a flow control means for controlling the flow of the mixture out of the flow confining path; and
a computer operably connected to the pressure sensing means of the venturi metering device for computing the flow rate of the exhaust gas through the venturi metering device using the electrical output received from the pressure sensing means, the computer being operably connected to the flow rate measuring means for measuring the flow rate of the mixture, and the computer being operably connected to the flow control means for controlling the flow of the mixture to maintain a preselected constant mass flow rate through the sampling zone.
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8. The apparatus of claim 7 wherein the entrance section and the exit section each include at least one annular condensation furrow adjacent to the entrance and exit heaters, respectively, the at least one annular condensation furrow of the entrance and exit sections functioning in conjunction with the entrance and exit heaters to flash vaporize any condensed moisture that flows into the housing.
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9. The apparatus of claim 7 further comprising a temperature sensing means for sensing the temperature of the exhaust gas passing through the venturi metering device, and for producing a second electrical output that characterizes the temperature that the temperature sensing means senses, the computer being operably connected to the temperature sensing means for receiving the second electrical output.
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9-2. A method for measuring the flow of an exhaust gas from an exhaust source, the method comprising the steps of:
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providing a venturi metering device comprising;
a housing having a longitudinal axis, an entrance section, a throat section, and an exit section, the throat section having a smaller diameter than the entrance and exit sections;
a pressure sensing means for sensing the pressure in the entrance section and the throat section, and for producing an electrical output that characterizes the pressure that the pressure sensing means senses; and
a computer operably connected to the pressure sensing means for receiving the electrical output, the computer including a register and an A/D converter for converting the electrical output of the pressure sensing means;
connecting the exhaust source to the entrance section of the housing so that the exhaust gas from the exhaust source flows into the entrance section, through the throat section, and out through the exit section of the housing;
setting the A/D conversion rate to at rate that is high enough to characterize a waveform of the electrical output;
reading a plurality of data points from the A/D converter, and for each of the plurality of data points calculating a square root value and storing a result in the register;
calculate an average square root value from the sum of the results of the plurality of data points; and
calculating an average flowerate from the average square root value.
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Specification