SU253433A1 - METHOD OF TEMPERATURE COMPENSATION FOR DIEL'COMMETRIC CONCENTRATOMETERS - Google Patents

Description

This invention relates to methods for measuring concentration in dielectric co-centrometers.

There is a method for temperature compensation of dielectric concentration meters, which is based on comparing the magnitude of the increments of electrical capacitance and conductivity caused by a change in temperature of a working capacitive sensor filled with a controlled medium with the change in electrical capacitance and conductivity of a single reference capacitive sensor equal in temperature conditions with a working sensor. This method provides temperature compensation at only one point on the scale of the dielectric concentration meter, i.e., when the concentrations of the components of the controlled medium are equal to the concentrations of the corresponding components of the reference medium. Otherwise, temperature compensation will be absent, which will introduce an error in the measurement. The absolute value of this error depends on the Diana-aon of the temperature change of the controlled medium, the magnitude and sign of the temperature coefficients of the components of the reference and controlled environments.

sensation in any range of temperature variation of the controlled medium, regardless of the magnitude and sign of its temperature coefficients.

The invention consists in the equation of the increments of electrical capacitances and the conductivities of two electrically connected in parallel, reference capacitive sensors with corresponding increments of electrical capacitance and conductance of the working capacitive sensor, each reference sensor being filled with only one of the corresponding components of the analyzed two-component medium. Reference capacitive

The sensors have a variable initial capacitance, which varies in such a way that at any time of measurement the ratio of the initial capacitance of each of the reference sensors to the initial capacitance of the working sensor is equal to the volume concentrations of the corresponding components of the monitored medium. The readout of the measured values is made according to the position of the moving elements used to change the initial capacitances of the reference sensors. All three sensors are in the same temperature conditions.

which implements the proposed method of absolute temperature compensation.

Temperature compensation is carried out by using two reference sensors 1 and 2, filled with the corresponding components and delivered in the same temperature conditions with the working sensor. Measurement of the electrical capacitance of the capacitances,. The sensors are produced by measuring device 3, and the equalization of the total electrical capacitance of the reference sensors 1, 1 with the capacitance of the sensor 4 is changed by changing the initial, capacitive reference sensors in such a way that the ratio of the initial capacitance of each ns reference sensors to the initial the capacitance of the working sensor at the time of measurement is equal to the volumetric concentrations of the corresponding components in a controlled environment.

The movable elements of the sensors used to change the value of their initial capacities are kinematically connected with the pointer of the reading device o, the scale of which is graduated in units of measured magnitude.

The absolute measurement of the difference in the capacitances of the sensors and, consequently, the concentration of the components in a controlled environment, proposed by the method of absolute temperature compensation, is absent in any

The temperature range of the measured concentrations and for any values and signs of the temperature coefficients of the components of the controlled medium.

Subject invention

The method of temperature compensation for dielectric cocenterometers using a reference sensor, characterized in that, in order to be temperature compensated in any range, temperature changes of the controlled medium, regardless of the magnitude and sign of its temperature coefficients, use an additional reference sensor connected to the first reference sensor in parallel , and the reference sensors are filled with various components of the mixture, and the magnitude of the increments of the capacitance and conductivity is equalized with the value of the corresponding rirascheny from the capacitance and conductivity of the working temperature of the sensor filled with a controlled environment by modifying the initial reference capacitance sensors

so that at the time of measurement the ratio of the initial capacitance of each of them to the initial capacitance of the working sensor is equal to the volume concentration of the corresponding component in the counterclaimed

environment.

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