CS219613B1 - Facility for measuring the passage of heat - Google Patents

Description

. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat transfer device for determining the distribution of heat flows.

At present, the heat transfer measuring device solves the reduction of heat leakage to the surroundings by passive thermal insulation, possibly supplemented by measuring the local temperature differences of the shells inside and outside the insulation. This system is inadequate to measure at cryogenic temperatures because local measurements of usually large temperature differences cannot provide _: reliable values of the ratio of heat delivered by heating to the sample to be measured.

The above-mentioned drawbacks are eliminated by the heat transfer device, which is based on the fact that the double-shell vessel is sealed with screws and bolts connected to the double-shell lid, the vessel and the lid together have a fluid-filled enclosure between them. The liquid level is higher than the highest point of the inner jacket of the intercoat space and lower than the highest point of the inner surface of the outer jacket of the interstage space in which a pipe connected to the volumetric gas phase liquid level measuring device is connected.

By using a specific heat curtain, an accurate! measuring the amount of heat that would otherwise escape from the heater to the surrounding space, so that from the heat balance of the heating input and the evaluation of the heat transferred to the specific heat curtain, the heat consumed for the measurement itself can be accurately determined; The specific heat shield does not completely eliminate the need to use the thermal insulation of the measuring device, especially for cryogenic temperature measurements, where it is advantageous to ensure a constant temperature of the vicinity of the device.

The figure shows schematically an exemplary embodiment of a specific heat curtain.

In the double-shell vessel, a test tube 3 is placed in the jacket 14 together with a heater 4, indicated as resistance heating. The heater 4 is thermally filled in the space between the jacket 14 and the outer surface of the test tube 3.

Claims (1)

Heat transfer device, characterized in that the two-shell vessel (1) is connected to the double-shell lid (2) by means of a gasket (11) and screws (10), the vessel (1) and the lid (2) have a fluid-filled intercoat space ( 12) so that the level of the liquid (12) is higher than the non-yarn electrical insulating material The double-shell lid 2 is pulled onto the double-shell vessel 1 with the seal 11 by bolts 10, their intercase space interconnected and filled with liquid 12 supplied to this space. in the lower part of the double-shell container 1 through an inlet 17 from the liquid tank 18. The liquid level 12 in the double-shell lid 2 completely covers the bottom of the double-shell lid. 5. The space around the housing 14 is filled with thermal insulation material throughout the space formed by the interior of the double-shell container 1 and the double-shell lid 2. The energy supply 8 to the heater 4 and the temperature sensor leads 9 of the test tube 3 are led through the spiral with the discharge 7 from the test tube 3 through the upper packing 18. The supply f1 to the test tube 3 passes through the lower packing 15 of the double-walled container 1. When measuring the heat consumption of the tube 3 measured, this consumption is determined by the difference between the heating capacity 4 and the heat consumption quantifiable from the resistance of the liquid 12 filling the interspace of the double-shell vessel. The temperature of the heater element 4 varies to a considerable extent during successive measurements with increasing power. Heat leakage outside the heater 4 cannot be completely prevented by any thermal insulation, as this would significantly distort the distribution and thermal capacity of the insulation. The heat curtain here forms a temperature-stable separation with the measured heat consumption of two heat flows. The influence of the ambient temperature variation, which is small due to the change in the heating temperature 4, can be respected, if necessary, by calibrating the heat consumption by the heat curtain with the heating off 4. This procedure refines the measurement results. Preferably, a heat shield can be used to measure the heat consumption of the cryogenic liquid 12, measuring its volumetric consumption without supplying the liquid 12 and with the level stabilizing by the plunger. BACKGROUND OF THE INVENTION a higher point of the inner jacket of the intercoat space and a lower than the highest point of the inner surface of the outer jacket of the intercoat space in which the tube (13) connected to the volumetric measuring device (5) of the liquid gas phase (12).