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QA Turbine Gas Meters
QA Quantometers are highly reliable gas meters which can be used throughout the entire field of flow metering and which fulfil all of the varying requirements of industrial metering. The QA and QAe quantometers work on the principle of the rotating turbine wheel. The rotation of the turbine wheel is proportional to the volume of the flowing gas and this volume (Vb/m3 ) is registered by either a mechanical (QA) or an electronic (QAe) index.
QA10 1inch Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA16 1inch Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA25 1inch Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA40 1inch Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA40 DN40 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA65 DN50 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA100 DN80 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA160 DN80 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA250 DN100 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA400 DN150 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter
QA650 DN150 Quantometer Natural Gas Meter
In a Turbine meter, gas enters an annular measuring chamber into which is installed a turbine wheel. The velocity of the gas passing through the measuring chamber causes the rotation of the turbine wheel, directly proportional to the velocity of the gas. As the annular area is known and the turbine wheel measures the velocity of the gas, a volume of gas can now be inferred to have passed the meter in a given time. the Turbine meter is therefore reffered to as an inferential meter



























