SU381000A1 - Calorimeter installation - Google Patents

Description

one

This invention relates to calorimetric installations for studying the kinetics of exothermic processes under isothermal conditions.

A known calorimetric installation for studying heat generation under isothermal conditions, comprising a thermostated vessel with a liquid, a test tube with a component under test, and a mercury vessel with a capillary in a vessel.

The proposed installation allows studying the kinetics of exothermic processes in a solid-liquid system due to the fact that the vessel for the component under study is connected to a vessel with a calorimetric liquid, the working vessel being perforated and placed in a reactor connected to the system for measuring the amount proportional to the amount of heat (secondary circuit).

The drawing shows the scheme of the proposed calorimetric installation.

The installation contains a thermostat 1 with a reactor 2 placed inside it, inside which there is a perforated vessel 3. The reactor through the cooler 4 communicates with a receiver by a condensation cylinder 5 connected to a pressure gauge 6, a buffer tank 7 and a vacuum pump (not shown).

A thermostat / also has a thermometer 8 and a vessel 9 with a liquid component. The vessel 9 is connected to reactor 2 via a connecting tube with a valve 10. The reactor is closed with a lid.

The installation works as follows. A portion of the lime is placed in the perforated vessel 3. In the vessel 9, an exactly measured amount of water is poured to absorb lime. Cold water is supplied to refrigerator 4. The temperature in the reactor and thermostat is measured using thermometers 8 with a divide value of 0.1 °. After equalizing the temperatures in the reactor and thermostat, a vacuum is created in the system, which is necessary for boiling water at

temperature of experience. The vacuum is kept constant by means of a buffer tank 7. Water from vessel 9 is fed to reactor 2 through a perforated vessel 3 into which lime is loaded. Using the flywheel 11 and the brush 12

The vessel 3 is lowered and raised in the reactor 2, mixing the reaction mass.

The heat released during the reaction is entirely consumed for the evaporation of water in the reactor 2, the steam is condensed in the refrigerator 4, the condensate enters the measuring cylinder 5.

Simultaneously with the start of the water supply from the vessel 9 to the reactor 2, a stopwatch is started. By splitting on the measuring cylinder 5, the rate of condensate formation is recorded. Since the temperature in the reactor and thermostat is the same, the amount of condensate formed is adequate to the amount of lime that has reacted.

Subject invention

Claims (4)

1. Calorimetric installation for studying thermal processes under isothermal conditions, containing a thermostat, a vessel for the component under study, a vessel with a calorimetric liquid, temperature and pressure sensors, and a secondary circuit, characterized in that, in order to study the kinetics of exothermic processes in the system, a solid body - the liquid, the vessel for the component under study, is made perforated, placed in the reactor and connected to the vessel with the calorimetric liquid, the reactor being connected to the secondary circuit. 2. Installation according to claim 1, characterized in that the vessel for the component under test is provided with a vertical displacement drive. 3. Installation according to claim 1, characterized in that the secondary circuit is designed as a series-connected refrigerator, a calorimetric condensate receiver and a pressure gauge. 4. Installation under item 1, characterized in that the reactor through the secondary circuit is connected to the buffer tank.