SU437929A1 - Massive calorimeter - Google Patents

Description

one

The invention relates to the field of thermophysical measurements, in particular to calorimetry. It can be used for kinetic studies using calorimeters, the working body of which is made in the form of a massive block.

In known calorimeters, including a calorimetric cell, in the form of a massive block of material with good thermal diffusivity and a temperature sensor, the block temperature is measured under the assumption that it is the same throughout its volume.

However, in such calorimeters, a massive inertia of a massive block is observed, the stationary state of which is reached after a certain time, therefore, the use of calorimeters in kinetic studies is limited only by cases of fairly slow processes.

In the proposed massive calorimeter, made in the form of a spherical block, a resistance thermometer, which is a temperature sensor, is wound on a mandrel, which is shaped like a cubic paraboloid of rotation.

Due to this, a cubic dependence of the length of the resistance thermometer wire on the radius of the gash is provided. Since the volume

Since the shara is also proportional to the cube of the radius, then the thermometer readings do not depend on the nature of the heat distribution in the unit, and hence on the speed of the process being studied. The drawing shows a massive calorimeter. The calorimeter consists of a massive spherical block 1 made of a material with good thermal diffusivity, such as aluminum, and a stopper 2 of the same

material. The unit is provided in the center with a socket for an ampoule with sample 3, inside of which is placed a calibration heater 4 fixed on the stopper. From the bottom thermal resistance meter 5 tightly wound is inserted into the unit.

PA mandrel of the same material as the block.

The entire device (except for the ampoule with the sample) is placed in a heat-insulating sheath, for example adiabatic, and, bringing its temperature to the desired one, is quickly dumped into the unit's nest of the sample heated to the same temperature and then lowered back into place cork.

The heat released (or absorbed) in the process under study is radially distributed from the sample along the block, changing the resistance of individual sections of the resistance thermometer. However, the total change in its resistance for a given amount of heat released remains unchanged regardless of the heat distribution in the unit.

Thus, when studying the kinetics of the Tenlov inertia process of the block under investigation, it does not affect the paired measurement results. After the experiment, the device is calibrated using an electric heater 4.

Subject invention

A massive calorimeter in the form of a spherical block with a resistance thermometer wound on an edge, characterized in that, in order to eliminate the influence of the calorimeter's thermal inertia on the measurement results, the mandrel of the resistance thermometer is shaped like a cubic paraboloid of rotation.