RU2629898C1 - Device for determining thermal conductivity factor of fibrous food products of animal origin - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: device for determining the thermal conductivity factor of fibrous food products of animal origin consists of a split housing made of a heat-insulating material, in the lower part of which there is a heat heater, and on its upper part there is a refrigerator, between which three heat meters are arranged in contact, made in the form of flat copper plates, between which two ampoules are fixed. Wherein the ampoule arranged between the upper and the middle plates is intended for the product being tested, and the ampoule arranged between the middle and the lower plates - for the reference product. Thermal sensors are installed on the copper plates, and a vibro-initiator of crystallization is installed in the ampoule with the product being tested. The refrigerator is represented by a Peltier refrigerator.

EFFECT: increasing the speed and accuracy of determining the thermal conductivity factor of fibrous food products of animal origin.

2 cl, 1 dwg

Description

The invention relates to thermophysical instrumentation, and in particular to devices for measuring the coefficient of thermal conductivity of fibrous food products of animal origin, including fish and fish products, meat and meat products.

A device for measuring thermal conductivity is known, comprising a measuring unit including a heater, as well as a measuring cell for the test substance, located under the measuring unit. In this case, the measuring cell includes an upper heater plate, a lower refrigerator plate, installed with a gap relative to each other, and a side wall that provides for fixing the gap between the plates. The upper and lower plates are thick enough to provide rigidity. At the same time, thermocouples connected to the measurement unit are placed in the plates. An annular groove is made in the lower plate near the side wall, which extends into the gap between the plates. The measuring cell is provided with an annular rim on the outer side surface of the heater plate. In this case, the measuring unit further comprises a ring in the lower end part protruding into the region of the measuring cell, and the inner diameter of the ring is larger than the outer diameter of the annular rim of the heater plate. Moreover, in the refrigerator plate, channels are made that exit into the gap between the plates and are connected to the reservoir with the test substance (RU 2096773 C1, 11/20/1997).

A device for determining thermophysical properties in a stationary thermal regime, comprising a heat insulating casing, an electric heater placed inside it with a thermal leveling plate for the sample, and a recording system. The heat-insulating casing is made open. The recording system is made in the form of a liquid crystal thermal indicator film mounted with the possibility of moving along the vertical guides of the pressure block with a coordinate grid deposited on its surface, graduated in units of area (SU 1130786 A, 12.23.1984).

A device is known for determining the thermophysical characteristics of non-conductive materials, comprising a chamber placed in it and surrounded by side and end screens, a water-cooled inductor mounted on a ceramic plate, inside which a heater is made, made in the form of two bodies of electrically conductive material with fixing elements installed between them. The heater is made in the form of two glasses, with openings facing towards each other. At the same time, a ring of heat-resistant non-conductive material is installed between the glasses (SU 1059493 A, 12/07/1983).

A known installation for determining the coefficient of thermal conductivity of the skin, containing a means for measuring thermal conductivity, a registration unit, a heater, a power supply, a sample clamping unit and a heat-insulating material. At the same time, the means for measuring thermal conductivity is made of a pair of thermocouples electrically connected to each other to ensure uniform heat transfer and to receive over the entire area of the test sample of skin placed between the thermocouples. In this case, the heat flow is directed from top to bottom, the thermocouples are connected to the recording unit, and one of the thermocouples is connected to the heater and the power supply unit (RU 60728 U1, January 27, 2007).

Closest to the proposed technical essence of the device is a device for determining the thermal conductivity of liquids and gases, containing a heater and a refrigerator, between which in contact are heat meters made in the form of flat plates, and a cell for the test substance, as well as a measuring circuit. In this case, the heat meter in contact with the heater is made with a through central hole, equipped with a temperature sensor and mounted on a plate of highly heat-conducting material. In this case, the heater is removable, and the cell for the test substance is formed by the surface of the heater, the surface of the plate and the inner side surface of the heat meter located between the heater and the plate, equipped with a vessel with a capillary connected to it (SU 911274 A1, 07.03.1998).

The disadvantages of these devices are the low accuracy of the measurements, the complexity of their measurements, and the inability to use these devices to study the thermophysical characteristics of fibrous food products of animal origin, presented in the form of a plate.

The problem to which the invention is directed, is to increase the accuracy of measurements.

The technical result achieved in solving the problem lies in the development of a device that allows you to quickly, accurately and without special labor costs to determine the coefficient of thermal conductivity of fibrous food products of animal origin.

To achieve the specified technical result, a device for determining the coefficient of thermal conductivity of fibrous food products of animal origin is proposed, consisting of a detachable body made of heat-insulating material, a heat heater is installed in the lower part, and a refrigerator is installed on its upper part, between which there are three heat meters in contact made in the form of flat copper plates, between which two ampoules are fixed, while the ampoule located between the upper and Independent user plates intended for the test product and the ampoule located between the middle and lower plates - for the reference product, wherein the copper plates are installed in temperature sensors, and in an ampoule with the test product is set vibroinitsiator crystallization. As a refrigerator, a Peltier refrigerator can be used.

The drawing shows a diagram of the device.

A device for determining the coefficient of thermal conductivity of fibrous food products of animal origin contains:

1 - Detachable housing made of insulating material;

2 - The ring-shaped middle of the detachable housing, with recesses for the heater;

3, 5, 10 - Copper plates;

4 - The upper annular part of the detachable housing with recesses for the copper plate;

6 - Vibro-initiator of crystallization;

7 - O-ring position of the ampoule with the test product and the copper plate 10;

8 - Clamping device with a micrometer screw;

9 - refrigerator;

11 - Ampoule with the test product;

12, 13, 14, 16 - Thermal sensors;

15 - Ampoule with a reference product;

17 - Heater.

A device for determining the coefficient of thermal conductivity of fibrous food products of animal origin works as follows.

The material sample under study, for example, a part of pork ham, is placed in the form of a plate in an ampoule for the test product (11), and a sample of material in the form of a plate used for comparison, for example, plexiglass (PMMK), is placed in the ampoule for the reference product (15). Then, the ampoule with the test product (11) is fixed between the copper plates (5) and (10), and the ampoule with the reference product is fixed between the copper plates (3) and (5). After assembling the device and connecting it to the power supply with the help of a heat heater (17) and a refrigerator, for example, Peltier (9), they provide the necessary temperature difference and after establishing a stationary thermal regime, for about 2-3 minutes, the temperature is measured using temperature sensors. In this case, the temperature sensor (12) measures the temperature (T ₂ ) at the point of contact of the ampoule with the test product and the lower part of the copper plate (10); a temperature sensor (13) measures the temperature (T *) at the point of contact of the ampoule with the test product and the upper part of the copper plate (5); a temperature sensor (14) measures the temperature (T *) at the point of contact of the ampoule with the reference product and the lower part of the copper plate (5); a temperature sensor (16) measures the temperature (T ₂ ) at the point of contact of the ampoule with the reference product and the upper part of the copper plate (3). The readings of the temperature sensors (13) and (14) must be identical. Simultaneously with a heat heater (17) and a refrigerator (9), a crystallization vibration initiator (6) is connected to the power supply, which is necessary to maintain the product under investigation in its natural state.

After the readings of the temperature sensors are taken, the coefficient of thermal conductivity is determined by the formula:

where λ _arr , λ _et is the thermal conductivity coefficient of the test and reference samples, [W / m⋅K], d _arr , d _et is the height of the plate of the test sample and standard, [m].

Thus, the proposed device allows you to determine the coefficient of thermal conductivity of fibrous food products of animal origin with high accuracy.

Claims (2)

1. A device for determining the coefficient of thermal conductivity of fibrous food products of animal origin, characterized in that it consists of a detachable body made of heat-insulating material, in the lower part of which a heat heater is installed, and a refrigerator is installed on its upper part, between which there are three heat meters in contact, made in the form of flat copper plates between which two ampoules are fixed, while the ampoule located between the upper and middle plates is designed to I have the product under study, and the ampoule located between the middle and lower plates is for the reference product, while thermal sensors are installed on the copper plates, and a crystallization vibration initiator is installed in the ampoule with the studied product. 2. A device for determining the coefficient of thermal conductivity according to claim 1, characterized in that a Peltier refrigerator is used as a refrigerator.

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