SU1612244A1 - Method of determining hydraulic resistance of permeable material - Google Patents

Abstract

The invention relates to the field of filtration. The purpose of the invention is to improve the accuracy of determining the hydraulic resistance of permeable materials. Model fluids with different viscosities are sequentially passed through a sample of permeable material, and the viscosity values of the model fluids cover the viscosity value of the working fluid. Hydraulic characteristics are determined by coefficients of viscosity and inertial resistance, and the coefficients of viscosity and inertial resistance are determined by interpolation, by the viscosity value of the working fluid, and the hydraulic resistance of the permeable material during the working fluid is determined yut by the formula. The method takes into account the change in the hydraulic characteristics of permeable materials from viscosity and allows determining the hydraulic resistance of materials during the flow of working fluids from the results of the spills of model fluids. 2 Il.

Description

The invention relates to the field of filtration, and in particular to methods for determining the hydraulic resistance of permeable materials used for filtering liquids.

The purpose of the invention is to increase the accuracy of permeable materials by taking into account the viscosity effect.

In FIG. Figure 1 shows a device for passing model fluids through a sample of a permeable material in accordance with the proposed method; Fig 2 shows the dependence of the hydraulic characteristics - coefficients in the viscous 6L and inertial A resistances when the fluid flows with viscosity and, (curve a) and d viscosity A. (curve b)

Sample 1 of the filter material is installed in the housing 2 and is passed through it consistently model. fluid. The choice of model fluids is made taking into account the properties of the working fluid so that the viscosity of the model fluids is 7U,, (C covers the value of the viscosity of the working fluid / k, i.e.

 / U.

When passing through a sample of model fluids, the flow rate of the liquid is determined by the flow meter 3, the pressure drop by sensor 4, the temperature of the liquid on, the sample entering the sample 5.

The results of the spills of the first model fluid determine the values of the hydraulic characteristics of the material - 4a - coefficients in viscosity oii and inertial resistance. Then the flushing and cleaning of the highways of the device are passed through the sample into the | model liquid, the values of the viscosity coefficient ("and | inertial resistances for the three model liquid) are determined. After this, the dependencies of the indicated coefficients on viscosity are obtained (Fig. 2),

; Then, using the obtained Yosti dependences (Fig. 2) for the working fluid, and | the viscosity which is viscous, the values of the coefficient of viscosity and viscosity o are determined by interpolating it (Q and inertio fflogo

RO resistance, after which it is determined; The hydraulic resistance of the material being conveyed during the flow of the working fluid.

Claims (1)

Invention Formula I A method for determining the hydraulic creep of a permeable material into the transmission of a model fluid through a sample of permeable material, the measurement of pressure drop L ..- 4 and fluid flow rates, which determine the coefficients of the viscosity and inertial resistances of the material for this viscosity, by the values of which determine the hydraulic resistance different In order to increase the accuracy by taking into account the viscosity effect, a second model fluid of a different viscosity is additionally passed through the sample of the permeable material, and the viscosity values of the model liquids are chosen from the condition (the coefficients of viscous and inertial resistances are determined for the flow of the second liquid; the coefficients of viscosity (and inertial resistances for the working fluid) are determined by interpolation using the obtained values of these coefficients, and the hydraulic resistance P of the permeable material for the flow of working fluid is determined according to the formula A oio where | 5g - coefficients in viscosity inertial resistance; fUo is the working fluid viscosity; h - thickness of permeable material . rial; f - filtration rate; PQ: - working fluid density. Fiz. / Was-yu :,  wo joo ifoo - Jl Fi8.2