RU2021118404A - HEAT METER AND HEAT METER OPERATION METHOD - Google Patents

Claims (13)

1. Heat meter (1) for the medium (M), which includes a conductive section (2), a processing unit (3) and a sensor (4) located in the inner space (2a) of the conductive section (2), and by means of this sensor (4 ) the medium temperature (M) and the flow rate with which the medium (M) flows through the conductive section (2) can be measured, characterized in that the sensor (4) is made in the form of a CTA sensor (5), which includes a conductive section (2) by the medium (M) measuring resistance (6), and that the heat meter (1) includes an energy supply device (7), to which the measuring resistance (6) is connected in such a way that the measuring resistance (6) is supplied from devices (7) supplying energy in heating mode. 2. The heat meter according to claim 1, characterized in that the heat meter includes another sensor, and this other sensor (8) is made in the form of a temperature sensor (9), and this temperature sensor (9) is located remotely from the CTA sensor ( 5) in a pipe system (10) connected to the conductive section (2). 3. A method for operating a heat meter (1) according to one of the preceding claims, characterized in that the heat meter (1) is operated in measurement mode to measure the amount of heat, or that the heat meter (1) is operated in analysis mode to determine the composition of the medium (M), and that the heat meter (1) is operated, in particular, alternately in measurement mode and in analysis mode. 4. The method of operating the heat meter (1) according to claim 3, characterized in that in the measurement mode (M) to find the amount of heat transferred by the medium (M) by means of the CTA sensor, the temperature of the medium (M) and the flow velocity of the medium ( M) with which the medium (M) flows through the conductive section (2) and the transferred heat quantity is calculated from the measurement results. 5. The method of operating the heat meter according to claim 3 or 4, characterized in that in the analysis mode to determine the composition of the medium (M), the following steps are performed, in this case, the first value (R1) of the resistance of the measuring resistance (6) located in the medium (M) is measured at a given temperature of the medium (M), and this resistance value is set as the minimum value (R1); in this case, then the specified heating power is supplied to the measuring resistance (6); while accompanying the process until the maximum value (R2) is reached, the resistance value of the measuring resistance is measured, and after that the heating power is turned off; while as the stabilization time of the process is the difference (Δt) time between the first rise in the resistance value of the measuring resistance (6) and the last rise in the resistance value of the measuring resistance (6); at the same time, from this stabilization time of the process, the composition of the medium (M) is found and in this case, the method is performed with an unperturbed medium. 6. The method of operating the heat meter according to claim 5, characterized in that it is performed several times and the medium (M) is determined based on the average value of the measured process stabilization times. 7. The method of operation of the heat meter (1) according to claim 3, characterized in that in the measurement mode (M) by means of the CTA sensor (5), the temperature of the medium (M) is measured several times in succession and the flow rate of the medium (M) is measured, with which the medium (M) flows through the conductive section (2), and that the temperature of the medium (M) is measured several times by another sensor, and from the measurement results the amount of heat that is given off or absorbed by the one located between the first sensor (4) and another sensor (8) is calculated system (10) pipes.