SU682793A1 - Method of the determination of moisture content of pulverulent materials - Google Patents

Description

capillary hysteresis and reduction in time determination.

This goal is achieved by the fact that before measuring the volume of liquid released, the dispersed material is periodically mixed and compacted.

Stirring of the material leads to the destruction of dead-end pores and a change in packaging, which J) is seriously alternating to the approach of larger pores to the membrane (shortening the filtering cores) and, consequently, reducing the time for squeezing (absorbing) the liquid at a given pressure. A compacted sample after each mixing can be considered as a sample with a different package, which automatically leads to averaging of the results, and the number of mixing and sealing is equivalent to the number of samples of the same material, with the same bulk density. Destruction of dead-end pores leads to the elimination of trapped air during the absorption process, which results in the same values of residual humidity at the same predetermined pressure in both the squeezing and absorption modes — eliminates capillary hysteresis.

Example. Ground quartz is placed in the test chamber on a porous membrane, pressure is created, under the action of which the liquid is expelled from the material under study, after which it is periodically mixed, and compacted, followed by measurement of the volume of released liquid.

Tests have shown that in this method, the time to establish an equilibrium at one given pressure at an offset of less than 15% on average reduces the time due to repeated displacement and compaction, instead of repeated measurements on different samples of the same material, for the entire squeezing and absorption process. practical absence of cough hysteresis.

Using the proposed method

Determining the relationship between the potential of moisture and humidity in dispersed materials provides the following advantages compared with existing methods: reducing the time to establish thermodynamic equilibrium in the sample for each given pressure; reduction of time for determination of dependence as a whole due to replacement of repeated measurements on different samples, variable packaging

particles in the same sample; elimination of capillary hysteresis, which for insoluble dispersed materials makes it possible to refuse the definition of dependence 3 of the absorption mode.

Claims (2)

1. USSR author's certificate number 548785, cl. G 01 N 5/02, 1977. 2.Globus A.M. To the method of determining the soil moisture potential using membrane presses. “Soil Science, 1971, No. 2, p. 163-178.