Method for determining the flow rate and/or the molecular mass of liquid or gaseous media
First Claim
1. A method for determining a flow rate or molecular mass of a liquid media or a gaseous media, comprising the steps of:
- emitting an ultrasonic pulse in a first direction from a transmitter in a flowable media;
running a time duration which is slightly shorter than a known transit time of said ultrasonic pulse in a static medium of said flowable media, said step of emitting said ultrasonic pulse and said step of running said time duration commencing simultaneously;
discharging a capacitor, to which a voltage is applied, commencing with a constant current intensity in said flowable media, said step of discharging said capacitor commences after ending of said time duration;
terminating said discharging of said capacitor, when said ultrasonic pulse is registered in a receiver for receiving said ultrasonic pulse, while continuing to apply voltage to said capacitor;
determining a discharge time by measuring said voltage still being applied to said capacitor;
determining a first-direction transit time by adding together said time duration and said discharge time;
determining a second-direction transit time by adding together said time duration and said discharge time in a second direction, said time duration and said discharge time in said second direction being determined by repeating said steps for determining said first-direction transmit time, said second direction being an opposite direction of flow of said flowable media from said first direction; and
, calculating said a flow rate or molecular mass of a liquid media or a gaseous media from a difference between said first-direction transit time and said second-direction transit time.
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Abstract
Method for determining the flow rate and/or the molecular mass of liquid or gaseous media in flow measuring instruments, especially pneumotachographs, with the aid of the measurement of the transit time of ultrasonic pulses in the medium between two ultrasonic transmitters/receivers, especially piezoelectric transmitters/receivers, where an ultrasonic impulse is emitted from a transmitter (1), and simultaneously the run of a time duration starts which is slightly shorter than the transit time in the static medium, after the end of the time duration the discharge of a capacitor, to which a voltage is applied, commences with a constant current intensity, the discharge is terminated with the registration of the ultrasonic pulse in the receiver (2), the voltage still applied to the capacitor is measured and the discharge time is determined, the transit time from the time duration and the discharge is added up, the measurement of the transit time is repeated in the opposite direction, and the flow rate and/or the molecular mass is determined from the different transit times.
34 Citations
7 Claims
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1. A method for determining a flow rate or molecular mass of a liquid media or a gaseous media, comprising the steps of:
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emitting an ultrasonic pulse in a first direction from a transmitter in a flowable media;
running a time duration which is slightly shorter than a known transit time of said ultrasonic pulse in a static medium of said flowable media, said step of emitting said ultrasonic pulse and said step of running said time duration commencing simultaneously;
discharging a capacitor, to which a voltage is applied, commencing with a constant current intensity in said flowable media, said step of discharging said capacitor commences after ending of said time duration;
terminating said discharging of said capacitor, when said ultrasonic pulse is registered in a receiver for receiving said ultrasonic pulse, while continuing to apply voltage to said capacitor;
determining a discharge time by measuring said voltage still being applied to said capacitor;
determining a first-direction transit time by adding together said time duration and said discharge time;
determining a second-direction transit time by adding together said time duration and said discharge time in a second direction, said time duration and said discharge time in said second direction being determined by repeating said steps for determining said first-direction transmit time, said second direction being an opposite direction of flow of said flowable media from said first direction; and
,calculating said a flow rate or molecular mass of a liquid media or a gaseous media from a difference between said first-direction transit time and said second-direction transit time. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification
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Current AssigneePeter Ganshorn
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Original AssigneePeter Ganshorn
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InventorsGanshorn, Peter
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Primary Examiner(s)NOORI, MAX H
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Application NumberUS09/519,655Time in Patent Office869 DaysField of Search738/612.7, 738/612.8, 738/612.9, 738/613.1US Class Current73/861.29CPC Class CodesG01F 1/66 by measuring frequency, pha...G01F 1/667 Arrangements of transducers...G01N 2291/017 Doppler techniquesG01N 2291/0212 Binary gasesG01N 2291/0222 Binary liquidsG01N 2291/02836 Flow rate, liquid levelG01N 2291/102 one emitter, one receiverG01N 29/024 by measuring propagation ve...G01N 29/222 Constructional or flow deta...
