SU466406A1 - Flow microcalorimeter - Google Patents

Description

one

The invention relates to the field of determining the thermophysical characteristics of microbiological synthesis processes.

Flow microcalorimeters are known for measuring the thermogenesis of microorganisms, which contain a massive block of highly heat-conducting material, inside which the reference and working chambers are mounted, and the block itself is placed in a thermostatic medium. However, it is noted that it is impossible to accurately measure the thermogenesis of microorganisms in the course of their viability due to the considerable length of the transport route of the suspension from the fermenter to the reaction vessel.

The purpose of the invention is to reduce the systematic error when measuring the thermogenesis of microorganisms. This is achieved by using the fermenter itself (the test liquid) as a thermostatic fluid, and an ejector installed at the outlet ends of the flow reaction vessels that act as the working and reference chambers are used as circulation pumps. The reference fluid is pumped through a closed loop inside the fermenter. Thus, in this microcalorimeter, the functions of a calorimetric and a thermostatic medium are combined.

The drawing shows a microcalorimeter.

Microcalorimeter consists of ejectors 1,

working 2 and reference 3 calorimetric chambers, massive block 4 of high thermal conductivity material, plugs 5 of the same material, tube b, thermostatically controlled liquid 7, collection of standard liquid 8 of high thermal conductive material, tube 9, high 10 conductive tube 10, (gas supply to ejectors and thermopiles 12.

Microcalorimeter works as follows.

The ejectors 1 provide the flow of the test liquid through the working chamber 2 and the reference liquid through the chamber 3. Through

ejectors are purged with inert gas or air. Massive block 4, plugs 5 provide a uniform temperature field around the calorimetric chambers. The tube 6 brings the test fluid into the working chamber.

The reference liquid is collected. In collection 8, it is freed from gas and again enters the reference chamber. The liberated gases are discharged through tube 9. Tube 10 is an integral part of a closed circulation system.

the reference fluid and is made of a highly heat-conducting material to maintain the temperature of the reference fluid equal to the temperature of the thermostatic medium. The gas through tube 11 flows simultaneously into both ejectors to ensure identical speeds.

flow. The thermal effects of the calorimetric chambers are recorded by a thermopile 12.

Subject invention

A flow-through microcalorimeter for measuring the thermogenesis of microorganisms in a liquid, containing a massive block of

a highly heat-conducting material, inside which the reference and working chambers are mounted, placed in a thermostatic medium, characterized in that, in order to reduce the systematic error of three dimensions, the test liquid enclosed in a vessel with forced circulation of the reference fluid was used as a thermostatic medium.

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