SU1113714A1 - Device for determination of gel-like film penetrability coefficient - Google Patents

Abstract

A DEVICE FOR DETERMINING THE PERFORMANCE COEFFICIENT OF GEL DISTRICT FILMS, comprising a penetrating gas supply chamber equipped with a penetrating gas inlet pipe, and a carrier gas supplying chamber with an input and output nozzles of the carrier gas, characterized by the - the carrier is made in the form of a vessel with a polymer solution, and the chamber for supplying the penetrating gas and the inlet pipe for the carrier gas are in the form of funnels concentrically placed in the carrier gas supply chamber, rigidly with connected and installed with the possibility of movement along the vertical axis of the gas supply chamber of the nozzle. ko

Description

The invention relates to the control of measuring technique and can be used in the study of the permeability of gel films in the chemical, food, pharmaceutical and other industrial sectors. A device is known for determining the coefficient of air permeability through a liquid film containing a coordinate microscope. The desired coefficient is determined by measuring the reduction in the size of an individual hemispherical foam floating on the surface of the solution of surfactant (SAW) SP. However, to determine the permeability coefficient of gel films, the device is not acceptable at all, since the dimensions of the bubble practically cease to change when the puff is transferred to the gel state, which exceeds the viscosity of the solution to obtain a bubble by 8-10 times. The closest in technical essence to the present invention is a device for determining the permeability coefficient of gel-like films, comprising a penetrating gas supply chamber equipped with a penetrating gas inlet nozzle and a carrier gas supplying chamber equipped with C2l carriers inlet and outlet nozzles. This device is characterized by insufficient accuracy in determining the permeability coefficient of gel-shaped films. The aim of the invention is to improve the accuracy of determining the permeability coefficient of gel films. The goal is achieved by the fact that in a device for determining the permeability coefficient of gel-shaped films, comprising a penetrating gas supply chamber equipped with a penetrating gas input nozzle and a carrier gas supplying chamber equipped with ha-carrier inlet and outlet nozzles The carriers are made in the form of a vessel with a polymer solution, and the chamber for supplying the penetrating gas and the nozzle of the gas-carrier inlet are in the form of funnels concentrically placed in the carrier gas supply chamber, rigidly connected and installed the possibility of moving 14 .1 the space along the vertical axis of the carrier gas supply chamber. The drawing shows a diagram of the proposed device. The determination of the permeability coefficient P is based on the implementation of two approaches: the determination of the magnitude of the stationary gas flow (or vapor) of the CCA through the film chromatographically, and the film thickness cf by electrical resistivity using the formulas P. pw — OHG where tfSP is the stationary flow of matter, p is the specific volume electrical resistance. Ohm.Mj is the volume electrical resistance of the film, OMJ -diameter of the film, m; - film height, m. The device contains a gel-like film 1, a penetrating gas supply chamber 2 in the form of a funnel, a carrier gas supply chamber 3, a carrier gas inlet 4, a communication gas 5, a chromatograph 6, a carrier gas cover 7, a movable table 8, surfactant solution 9 placed in the carrier gas supply chamber, penetrating gas supply gas (test gas) 10, gas injection initiator gas supply pipe 11, metering valve 12. The principle of the device is as follows. The carrier gas supply chamber is sealed with a surfactant solution 9 up to the exit section of the penetrating gas supply chamber (funnel nose) and closed with a sealed lid 7. The carrier gas is then circulated through the communications 5 and the carrier gas supply chamber 3. A gradual lowering of the movable table 8 begins. Simultaneously with the beginning of the lowering of the movable table, the gas under investigation is fed into the chamber 2 of the supply of penetrating gas through the nozzle. After the formation of the cylindrical film 1, the movable table 8 stops. Immediately after the formation of the film, in chamber 3, via communication 5, through the nozzle 11, a gas initiator is fed through the tap 12. Initiator

Claims (1)

DEVICE FOR DETERMINING THE PERFORMANCE PERFORMANCE OF GELEOBS OF DIFFERENT FILMS, comprising a penetrating gas supply chamber equipped with a penetrating gas supply nozzle and a carrier gas supply chamber equipped with carrier gas inlet and outlet nozzles, characterized in that, in order to increase the accuracy of determination , the carrier gas supply chamber is made in the form of a vessel with a polymer solution, and the penetrating gas supply chamber and the carrier gas inlet are in the form of funnels concentrically placed in the carrier gas supply chamber, mounted and installed with the possibility of movement along the vertical axis of the carrier gas supply chamber.