SU807081A1 - Heat quantity measuring device - Google Patents

Description

The invention relates to thermometry, for example, to calorimetric studies during the fermentation processes of growing microorganisms.

A device for measuring the amount of heat is known, comprising a ^{1 * 3} measuring and reference camera, a thermal battery [1].

Odaako in the known device, the temperature equalization of the chambers occurs for a long time, which leads to an error in determining the amount of heat generated due to changes in the substrate concentration and phase equilibrium of the controlled environment.

Closest to the proposed technical essence is a device for measuring the amount of heat, containing two detachable heat-insulating covers, in which symmetrical recesses for the reference and measuring chambers are made on the inside, thermal battery, calibration resistance f 2].

However, the known device has a high sensitivity to fluctuations in the initial temperature of the culture medium, which in conventional fermenters are ± 1 ° C or more, which leads to a significant error in determining the amount of heat.

The chain of the invention is to increase the measurement accuracy by reducing the influence of fluctuations in the temperature of the working medium of the fermenter, for which the heat-insulating lids are installed with a gap into which a holder mounted through the axis of rotation with a through hole is inserted, with the thermal battery placed in it, and in the heat-insulating lid containing the working chamber, an additional recess is made for the colibration chamber, and the centers of all the chambers coincide with the center of the hole in the holder.

In addition, the holder of the thermal battery is made in the form of a sector, and the body of the reference chamber is made of heat-conducting material.

The drawing schematically shows the proposed device.

The device comprises a detachable heat-insulating cover 1, a through hole 2 in the holder, a thermal battery 3, a reference chamber 4, a measuring chamber 5, a calibration chamber 6, a calibration resistance 7, an axis of rotation 8, a holder 9.

The device operates as follows.

When the holder 9 is turned to the operating position, the measuring chamber 5 is closed, and the thermopile 3 is located on one side above the chamber 5, which is filled with culture fluid, and the other side, under the reference chamber 4. Since heat is released only in the measuring chamber 5, and the reference chamber Since the temperature is specific for each nickel and constant during the whole cycle, a signal corresponding to the temperature difference between the chambers appears at the output of the thermopile 3. This signal is measured and used to compensate for the temperature difference between the cameras using an electric heater. At the end of the measurements, the thermopile 3 by turning the holder 9 around the axis 8 is put into an inoperative position and is located between the heat-insulating covers 1 made of Teflon. When the thermopile 3 is located above the calibration chamber 6, equipped with a calibration resistance 7, the thermopile is calibrated.

The proposed device, along with an increase in the measurement accuracy, makes it possible to carry out measurements under standard conditions for thermostating of fermenters and is especially convenient for studying biological systems where oxygen dissolved in a ₅ culture medium is an important component of the reaction.

Claims (2)

The invention relates to thermometry, for example, calorimetric studies during the fermentation processes of growing microorganisms. A device for measuring the amount of heat contained in the measuring and reference chambers is known. The thermal battery is 11. Odeako, in the known device, the temperature of the chambers increases over a long period of time, which leads to an error in determining the amount of heat released due to changes in substrate concentration and phase equilibrium controlled environment. The closest to the technical essence is the device dp of measuring the amount of heat, which contains two detachable heat insulating covers, in which symmetrical absorbances for the reference and measuring chambers, thermopile, and calibration resistance are made on the inner side. However, the known device has (heightened sensitivity to fluctuations in the initial temperature of the hultural medium, which in conventional fermenters will be more difficult, which leads to significant and decisiveness in determining nor to (quantities of heat. The invention’s circuit is an increase in the accuracy of the measurers and by reducing the influence of fluctuations in the working environment of the fermenter, for which the heat-insulating covers are installed with a gap, in which the holder is mounted on the axis of rotation, In this case, with a thermopile, in the heat insulating lid containing the working KSMQfy, an additional deepening of the calibration chamber was made, and all the chambers coincide with the center of the hole in the holder. In addition, the thermopile holder is made in the sector, and the body of the reference chamber is made of heat-conducting material. The drawing shows a schematic of the estimated device. The device contains detachable heat (izolation krypik 1, through hole 2 in the holder, thermopile 3, reference camera 4, measuring chamber 5, capillary chamber 6, capillary resistance 7, axis of rotation 8, holder 9. The device works as follows. When turning the holder 9, the measuring chamber 5 is closed to the working position, and the thermopile 3 is located on one side over the chamber 5, which is filled with cupric liquid, and the other side - under the reference chamber 4. Since heat dissipation occurs Only in the measuring chamber 5, and the reference chamber has a temperature determined for each measurement cycle and a constant temperature throughout the cycle, a signal corresponding to the difference in the temperature & ample of the cameras between the cameras appears at the output of the thermopile 3. This signal is measured and used to compensate for temperature differences between the chambers using an electric heater. At the end of the measurements, the thermopile 3 is rotated by the holder 9 around the axis 8 is moved to the non-working position and placed between the heat insulating covers 1, made of Teflon. When the thermopile 3 is located above the calibration chamber 6, equipped with a calibration resistance 7, a thermocouple is inserted. The proposed device, along with improved measurement accuracy, allows measurements to be carried out under standard thermostatic conditions of the fermenters and is particularly convenient for studying biological systems, where oxygen is an important component of the reaction. Claim 1. A device for measuring the amount of heat containing two detachable heat insulating covers, in which symmetrical recesses for the reference and measuring chambers are made on the inner side, thermopile, calibration resistance, characterized in that in order to improve the measurement accuracy by reducing the effect no fluctuations in the temperature of the working medium of the fermenter, thermal insulating covers are installed with a gap, into which a holder with a through-hole, fixed on the axis of rotation, is inserted, with There is a thermopile in it, and in the insulating lid containing the working chamber, an additional recess for the calibration chamber is made, and the centers of all the chambers coincide with the center of the hole in the holder. 2. The device according to claim 1, which means that the thermopile holder is made in the form of a sector, and the body of the reference chamber is made of thermal material. Sources of information taken into account during the examination: 1. USSR author's certificate NO 276465, cl. G 01 K 17/08, 1968. 2. USSR author's certificate number 552525, cl. C O1 K 17 / O8, 1975 (prototype). five