SU958837A1 - Heat exchanging element - Google Patents

Description

(54) HEAT EXCHANGE ELEMENT

Claims (5)

The invention relates to heat exchange apparatus and can be used in the energy industry. A heat exchange element is known that contains moving petals of a thermosensitive material 1. The disadvantage of this element is the weak sensitivity of the petals to changes in the temperature of the heat transfer medium, which leads to insufficient flow turbulization and heat transfer intensification. The purpose of the invention is to intensify heat transfer. This - the goal is achieved by the fact that the petals are made with a different threshold of sensitivity from a material that has a reversible martensitic transformation. In addition, the petals are divided into groups with the same sensitivity threshold of the petals in each of them. Each petal is made up of parts with a different sensitivity threshold. Petals are equipped with heat-sensitive wire turbulators with different threshold of sensitivity. Petals have perforations with flared. FIG. 1 shows a heat exchange pipe with the arrangement of petals in the working position; in fig. 2 - petals, filled out of the plots, composite in length; in fig. The same with thermosensitive wire turbulators; in fig. 4 - the same, with perforation. The heat exchange element 1 contains petals 2 with a different sensitivity threshold from a material that has a reversible-martensitic transformation, and the petals are divided into groups 3 and 4 with the same sensitivity threshold of the petals in each of them. Groups 3 and 4 form the schachmat and corridor fins of the element 1, respectively. The fins can be performed both on the outer surface of element 1 and on its inner surface. Each petal 2 can be made composite along the length of sections 5 with a different sensitivity threshold. In addition, the petals can be provided with heat-sensitive wire turbulators 6, having different sensitivity thresholds, and can have a perforator 7 with flanging 8. The body of the element 1 can also be made of a material that has a reversible martensitic transformation. In the cold state, the petals 2 are located in the grooves 9 made in the body of the element 1. When the heat transfer element 1 flows around the heat carrier, the petals 2 warm up and upon reaching the sensitivity threshold, for example, group 4, the corresponding petals exit the grooves 9 and form a fin, Corridor fins corresponding to group 4, for example. Upon further heating of the petals and reaching the threshold of sensitivity of another group, for example group 3, petals corresponding to this group emerge from grooves 9 and form, for example, a schachmat finning of element 1. The type of fins can be arbitrary and controlled by the number of groups with the same sensitivity threshold . The presence of sections 5 with different thresholds of sensitivity, wire turbulizers 6 and perforations 7 with flared 8 on the petals 2 contributes to automatic regulation of heat exchange depending on the temperature of the heat transfer fluid, since when the temperature of the heat transfer medium changes and the corresponding sensitivity threshold is reached by presetting the sections 5, the turbulators 6 and the flanging 8 occurs at a given temperature the degree of intensification of heat transfer. The proposed heat exchange element helps to automate the process of regulating heat exchange depending on the temperature of the heat transfer medium and intensifies the heat exchange in general. Claim 1. Heat-exchange element containing movable petals of heat-sensitive material, characterized in that, in order to intensify heat exchange, the petals are made with different threshold of sensitivity of a material having a reversible martensitic transformation. 2. An element according to claim 1, characterized in that the petals are divided into groups with the same sensitivity threshold of the petals in each of them. 3. The element according to claim 1, characterized in that each petal is made up of sections with a different threshold of sensitivity along the length. 4. An element according to claim 1, characterized in that the petals are provided with heat-sensitive wire turbulators having a different threshold of sensitivity. 5. The element according to claim 1, characterized in that the petals have perforations with flanging. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2797523, cl. F 28 F 1/10, 1979. 55 / L /////////// ///. i / - 1 jfr- sor