SU1567960A1 - Device for measuring ph at high pressures and temperature - Google Patents

Abstract

The invention relates to the field of physicochemical methods for studying aqueous solutions of electrolytes and can be used to study the properties of the water coolant, corrected by various methods, and the processes of metal corrosion in power plants with high environmental parameters, as well as geology when studying groundwater in hydrology. The aim of the invention is to increase the accuracy of measuring PH at high pressures and temperatures. The goal is achieved by supplying a symmetric measuring pair of electrodes 10 and 11 with a second pair of similar indicator and comparison electrodes 9 located in a reference sealed chamber 1 on an insulating partition 6, while the chamber is equipped with a thin-walled bellows 4 and is filled with a solution with a known ionic composition, and The measuring pair of electrodes 10 and 11 is located in a cylindrical housing 13, which has an annular gap on one side for the penetration of the measuring solution. This design eliminates the influence of temperature and pressure on the standard potential in the Nernst equation and increases the accuracy of the PH measurement, eliminating the uncontrolled dependence of this parameter on the change in external conditions in the calculations. 1 il.

Description

The invention relates to physicochemical methods for studying aqueous solutions of electrolytes in the study of the properties of the water coolant of a power plant, corrected by various methods, and processes of metal corrosion in power plants at high environmental parameters, as well as in geology in the study of groundwater and in hydrology.

The purpose of the invention is to increase the accuracy of pH measurement.

The drawing shows an example of the implementation of the proposed device.

The case of the device consists of three parts. The upper part 1 has an opening closed by a threaded plug 2 with a seal 3. The opening serves to fill the internal volume with a standard solution, for example (NaOH), using a medical syringe. The middle part - with a sylph 4 - is welded to the upper 1 ir lower 5 parts of the body. The lower part of the housing 5 is locked by an insulator. 6 with a cap nut 7 and a conical washer composed of two halves. The sealing of the internal volume of the device is achieved by arranging a spherical cone-type contact pair between the insulator 6 and the lower part of the body 5. The inner 8, 9 and outer electrodes 10 and 11, made according to the known technology of silver chloride and palladium, are soldered with gold to platinum wires 12 embedded in the insulator 6 (aluminum oxide), which locks the case 5 with a nut 7 and a conical washer 13.

The device is placed in the study environment. In this case, the protrusion of the insulator, equipped with a nickel washer, is clamped between the case of the experimental (or industrial) installation 14 with a washer and 15 studs with nuts 16. The potential difference between DE and DE can be measured with an electronic millivoltmeter with an input resistance of at least 10 kΩ.

The operability of the device is determined by the operability of the electrical

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Dov, in this case, a palladium electrode, preserving the hydrogen function up to p 600 MJla and t 300 ° C.

When testing the device, pure (deaerated, chemisalt-free) water (pHQ 7.0, 1 μS / cm) was poured into the housing, and solutions with different concentrations of NaOH, for which the known dissociation constant was used for the test parameters and the dependence pH on temperature and pressure.

The deviation of the measured pH values from the calculated values did not exceed + 15-20 mV. In the case of the same equestrian compositions of the measured solution and the reference DE was equal to zero,

In this way, the exact value of pH versus temperature and pressure for a reference solution allows the pH of an unknown solution to be measured at high pressures and temperatures with an accuracy of 0.01 and higher, depending on the electrical interference caused by electronic measuring equipment. under such extreme conditions.

Claims (1)

Invention Formula A device for measuring pH at high pressures and temperatures, comprising a housing and a solid-state indicator electrode and a comparison electrode located therein, characterized in that, in order to increase measurement accuracy, it is equipped with a symmetric second pair of similar electrodes located in a reference sealed chamber on an insulating at the same time, the chamber is equipped with a thin-walled sylphon and is filled with a solution with a known ionic composition, and the second pair of electrodes is located in a cylindrical casing having Second side annular gap for penetration of the sample solution.