SU642625A1 - Capillary viscosimeter - Google Patents

Description

The invention relates to devices for measuring the viscosity of liquids and can be used in the oil refining, oil and fat, and other industries. A capillary viscometer is known, based on measuring the viscosity by the pressure drop of a moving test liquid at the ends of a capillary made in the form of a coil I. Also known is a capillary viscometer, the capillary of which is made in the form of a rigid coil. parallel branch ends {2 |. Such viscometers do not provide sufficient measurement accuracy. The closest technical solution to the present invention is a device for measuring viscosity containing a system of capillaries of different lengths and the same internal diameter {3. In this device, the capillary system is made in the form of two-pitched pairs of serially connected capillaries of different lengths and the same internal diameter with the opposite arrangement of the long and short capillaries in each pair and equipped with intercapillary chambers connected to a recording device. When the viscosity of the fluid changes, the hydraulic resistances of the capillaries change, which causes a corresponding change in the pressure drop from the intercapillary chambers at a constant flow rate. However, this device does not have sufficient sensitivity and measurement accuracy. The aim of the invention is to increase the sensitivity and accuracy of measurements. This is achieved by the fact that in a viscometer containing a constant flow meter, a system of parallel-arranged capillaries of different lengths and a registering device, the capillaries are made with different internal diameters within the ratio of the last 1.3-1.5. The drawing shows the scheme described viscometer. The device contains two synchronous motors, two gear-type pumps 2, two drain vessels 3 for maintaining a constant level, capillaries 4 and 5, a differential pressure gauge 6 and a secondary device 7. The readings were checked by a U-glass gauge 8 alone.

The test fluid from the flow using gear pumps 2, entering the drain vessels, continuously flows through the system of capillaries 4 and 5. Using the drain vessels, the same flow rate of the liquid in both capillaries is achieved. When the viscosity of the test liquid changes, the pressure of the liquid in each capillary changes and, consequently, the pressure drop taken from the capillaries 4 and 5.

The pressure drop at the a and b points is equal to

, p 12aaL4 12c% b .1 (1) AP-Ri P5 ifdy jraj

where) A is the dynamic viscosity of the test liquid;

R and PS - pressure in 1sapillus 4 and 5;

O and QS — flow rate through capillaries 4 and 5;

t. 5 - D.LII capillary 4 and 5 from the a and b selection points;

ti, dg - anutrennye capillary diameters. l ditch 4 and 5.

Denoting the dynamic viscosity in terms of kinematic v, we get

г, р ..1 | 1 (-9.j | ..) (2;

where p is the density of the test liquid.

As can be seen from the expression (2). to increase the pressure drop, it is necessary to reduce the length of the capillary 5 and increase its diameter. Based on the condition, it is necessary to choose the value and d. Consequently, the mere reduction of I within acceptable limits does not give a significant increase in i and D R. And a small increase in the diameter of the capillary 5 sharply decreases the pressure at the point of withdrawal b, therefore, with the same viscosity value, we obtain a large value of the pressure difference D P, due to the viscosity of the fluid.

Claims (3)

Invention Formula A capillary viscometer containing a constant flow meter, a system of parallel arranged capillaries of different lengths, a recording device, characterized in that, with the aim of increasing the accuracy of measurements, the capillaries are made with different internal diameters within the ratio of the last 1.3-1.5 . Sources of information taken into account during the examination I. Patent of England He 1246643, to /. Q 1 S, 969. 2. USSR author's certificate number 308336, cl. G 0) N 1 i / On, 1972. 3. Author's certificate of the USSR № 371479, cl. GO NI / 08, 974. rc