SU1762187A1 - Method for vibrating viscosimeter tuning - Google Patents

Abstract

The invention relates to the measurement of the viscosity of liquids by oscillating viscometers and can be used in technological processes for processing viscous Newtonian liquids in the chemical, petrochemical, and other industries. The essence of the proposed technical solution is that they determine the relationship between the time of movement of the sensitive element under the action of the first driving force and the time difference of movement under the action of two different driving forces and memorize the result, and movement of the sensitive element on a stable sample of the analyzed liquid in the Newtonian region and compare the result with the value of the initial calibration. 1 silt, ate With

Description

The invention relates to the field of measuring the viscosity of liquids by oscillating viscometers and can be used to increase the operational reliability of viscosity measurements in technological processes for the processing of viscous liquids in the Newtonian field in the chemical, petrochemical and other industries.

A known method of adjusting a rotational viscometer is based on measuring indications in a Newtonian fluid at different speeds of the rotor in order to more accurately account for friction in bearings and non-linearity of the torsion.

The disadvantage of the known method, which deteriorates the metrological characteristics, is the impossibility of performing its operations during operation directly on the process equipment.

The closest to the technical essence of the present invention is a method based on measuring the viscosity of the difference in transit time by a sensitive element of a fixed distance under the action of two different driving forces.

The magnitude of the difference between the driving forces establishes a scale factor, with the measurement accuracy, metrological characteristics, dynamic characteristics, etc. operational factors do not affect: long-term instability and the absolute value of the driving forces, changes in the bearing in the supports.

This method also has disadvantages that worsen metrological ha "

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Characteristics (measurement accuracy, dynamic characteristics) during operation are the impossibility of setting the scale factor under industrial conditions.

The aim of the invention is to improve the metrological characteristics directly during the operation of liquids characterized by viscosity in the Newtonian region.

The goal is achieved by the fact that in the method of tuning oscillatory viscometers, including the measurement of the uniform passage time by a sensitive element of a fixed distance in a reference fluid under the action of two different driving forces, which determine the scale factor for tuning, first determine the ratio between the transit time of senses - a fixed element of a fixed distance under the action of the first driving force and the difference in the transit times of the sensitive element under As a result of the first and second driving forces, the result is memorized, then, during operation, the current ratio of transit times of the sensitive element on a stable sample of the analyzed liquid is periodically determined, the result is compared with the initial one, and if the current result deviates from the initial one, then scale factor is carried out when measuring the movement time of a sensitive element under the action of a modified first driving force, while the magnitude of the difference between the first and second driving forces is kept constant,

The drawing shows a diagram of the device with which the method is implemented.

The device contains an oscillating-type measuring transducer consisting of a traction electromagnet 2 and a cylindrical sensitive element 3 with a magnetic hard insert 4 placed in a controlled medium 5. The position of the sensitive element is monitored by position sensors 6 connected to a control circuit 7 determining which of the current stabilizers 8 (flowing or flowing current) is connected to the traction electromagnet 2. The time interval formed by the control circuit 7 is measured by the circuit 9. The measured value and stored in the memory 10 and supplied to correction unit 11 and indicator 12.

The method is carried out as follows.

The measuring transducer 1 is set into the reference fluid 5 and the transit time of the fixed distance by the sensitive element 3 is determined by the first driving force, the difference of the transit times of the sensitive element by the first and second driving forces, the initial ratio of these two values is calculated in the correction unit 11. The measured ratio is memorized by the memory unit 10. Moreover, the magnitude of the first driving force and the conversion factor of the control circuit 7 are chosen so that the indications of the indicator 12 correspond to the true viscosity value of the reference fluid 5.

During operation, the ratio of the travel times is determined on a stable sample of the analyzed fluid and this value is compared with the initial value stored by memory 10.

If this value is different from the initial one, then the correction unit 11 accordingly changes the first driving force, and the value of the first and second driving forces maintains a constant.

Thus, the method of tuning oscillatory viscometers under operating conditions for liquids characterized by viscosity in the Newtonian region allows maintaining the stability of the scale factor and, consequently, high measurement accuracy under the influence of the destabilizing factors of the medium being analyzed and the operation time during the measurement procedure ensuring the stability of dynamic Characteristics

The proposed method, in comparison with the known ones, provides the basic reduced error of viscosity measurement at ± 2.5% of the modulus of the difference in measurement limits during the verification interval (2 years) under the influence of destabilizing factors: change in the absolute value of the supply currents, change in the friction in the supports sensitive element 1, the change in the residual induction of the magnet 4.

Claims (1)

Invention Formula A method for tuning oscillatory viscometers, including measuring the time of uniform passage by a sensitive element of a fixed distance in a reference fluid under the action of two different driving forces, which determine the scale factor for tuning, and in order to improve the metrological characteristics operating on fluids characterized by viscosity in the Newtonian region, first determine the ratio between the transit time of the sensitive the element of a fixed distance under the action of the first driving force and the difference in the transit time of the sensitive element under the action of the first and second driving forces, memorize the result, then periodically determine during operation 0 the current ratio of the transit time of the sensitive element on a stable sample of the analyzed liquid compares the result with the initial one, if the current result deviates from the initial one, corrects the first driving force and further determines the scale factor when measuring the movement time of the sensitive element under the influence of the changed first driving force, while the differences between the first and second driving forces are kept constant. Jh