SU667879A1 - Method of determining concentration of high-boiling oil products in water - Google Patents

Description

the latter, the passage through the sorbent layer, will be partially adsorbed because it is a system of two liquid phases with different adsorption properties. An increase in the concentration of physically bound water in the sensor volume during the passage. The research institute of the oil-water emulsion leads to an increase in the electric current of the chedge sorbent layer. At the same time, the oil product hour, which forms a film on the surface of the sorbent, can initially act as an insulator. Since an oil film with a thickness of several microns has a resistance that is an order of magnitude higher than that of surface-adsorbed water.

In order to achieve greater sensitivity, the temperature conditions of the evaporator and detector are sufficient to destroy the emulsion and at the same time eliminate the volatility of the oil product, which corresponds to the temperature LaO-lSOc. Oil product concentration information 6 is obtained by calculating the integral value of the square deviation of any electrical detector parameter (e.g. current) during the analysis cycle of the sample group. Moreover, deviations are measured from the average value of the same parameter, determined before entering the oil product. The transit time of the petroleum product through the LAY of the sorbent also depends on the CoCtrint, therefore the cycle time of the analysis is chosen in such a way that, with possible concentration fluctuations, to ensure the complete passage of petroleum or petroleum products from one group of samples through the detector during the cycle time, which is common and in chromatographic analysis.

The drawing shows a diagram of a device for carrying out the proposed method.

The device contains an automatic spool dispenser 1, an evaporator 2, a conductometric detector 3, a measuring electronic; a black box 4, an electronic power supply unit 5 and a program card, the spool valve drive 6. When you move the dispenser water sample containing oil products, set successively one after another into the evaporator, where the water is evaporated, and the oil products are transferred by a stream of water vapor to the conductometric detector. In the detector, having a PTFE chamber and electrodes, between which there is a layer of electrically conductive inactive sorbent, for example, balls of iron-containing glass, a temporary retention of oil products from the samples takes place. Glass beads have a low specific surface area and are capable of retaining

There is only a small amount of vaporous water; this determines the low initial conductivity of the sensor. When the paraffinic oil and aromatic hydrocarbon hydrocarbons on the surface of glass balls are contained in steam-carrying oil products, they are held on the surface of the sorbent and in this case play the role of a conditionally fixed liquid phase, as the speed of their movement through the layer of glass balls repeatedly less than the rate of movement of water vapor. As a stationary phase distributed on the surface of the sorbent, hydrocarbons help to retain an additional number of steam and steam molecules. a sorbent and thereby increase the current through the sensor. At the same time, due to the complicated configurations of the channels in the sensor sorbent, the effect of capillary tension, and the properties of DES, conditions can be created for thickening the film of petroleum at the contact points of the balls, which leads to the insulating properties of oil products and a decrease in current through the sensor. Therefore, measurement Electrically the detector parameters are produced using a measuring electronic unit, which Lj performs the following operations;

the signal from block 5 of the program makes the determination of the average value of the measured electrical gages of the detector (for example, current) before entering a portion of the samples of the oil-water mixture for analysis;

3 calculate the computation of the CSA and other parameters, the deviations of the current values of the electrical parameter of the detector from the average from the end of the inputs to the end of the measurement cycle;

Defined e-sum of squares of deviations of the electrical parameter during the analysis cycle.

The sample entry cycle is programmed. unit 5 and each new cycle is performed in the specified sequence. The concentration information, proportional to the integral value of the squares of the deviations of the measured parameter, is displayed numerically on the front panel of the electronic unit.

Claims (2)

1.Lurie Yu.Yu. Chemical analysis of industrial wastewater. Ed.  Chemistry, 1,974. 2. Patent Franckl In 2276584, cl. G 01 N 27/12, 1969. Lead Hufmtnpoay / inS W // 7 /