SU1276901A1 - Heat exchanger manifold - Google Patents

Abstract

1. TEIinOOBMEHHIIKA COLLECTOR, comprising a housing and distributors fixed in it, is distinguished by the fact that, in order to regulate the process of distribution of the heat transfer fluid, the distributors are made of a heat-sensitive material, and the attachment unit of each of them to the housing is inserted as a pair of rods, installed on each side of the distributor and supplied with heating elements. 2. The collector of claim 1, wherein the distributors are grouped into rows with a common pair of rods for each row, and the heating elements are placed in each pair in alternate order. T t

Description

Fig.1 The invention relates to heat exchanging apparatus and can be used in the energy industry. The purpose of the invention is to provide regulation of the process of distribution of the coolant. FIG. 1 shows the proposed heat exchanger manifold; in FIG. 2, section A-A in FIG. 1. The heat exchanger manifold contains the case 1 and the distributors fixed in it in the form of angles 2, the crest assembly of each of which to the case i is made as a pair of rods 3 and 4 installed on different sides of the distributor 2 and equipped with heating elements 5. The distributors 2 can They are grouped into rows 6 with a common pair of rods for each row, and the heating elements 5 are placed in each pair in an alternate order. Distributors 2 are made of a temperature-sensitive material, for example, a bimetal or of a material with inverse martensitic transformation. The proposed collector works as follows. For the given velocity profile in housing 1, the magnitude of the opening of the bimetallic angles 2 is selected. The magnitude of the opening of the angles 2 depends on the temperature of the corresponding heating element 5. It is known indirectly that the measurements and the configuration of the flow supply to the cismowerator use the flow velocity to have a maximum value, for example , in the upper right corner of the housing 1. In this case, the temperature of the heating elements is higher precisely for those 2 corners that flow around at the highest speed, therefore, these corners have maximum opening and has the greatest inhibitory effect of the incident flow. Therefore, the flow behind the collector has a more uniform velocity profile, which is important for a uniform chemical and thermal reaction over the cross section of the apparatus. In the undisclosed state, the angles 2 have a low hydrodynamic resistance. In a simplified version, the collector can work with the heating elements 5 disconnected. In this case, a certain initial opening of corner 2 is set. With a match to the selection of its elasticity, the opening of corner 2 is the greater, the greater the flow rate of the incoming flow to corner 2, i.e. In this embodiment, the opening of the corners 2 is automatically maintained large in the place where the greater value of speed and, therefore, the velocity profile behind the device is automatically maintained uniform.

Claims (2)

1. A HEAT EXCHANGER COLLECTOR, comprising a housing and distributors fixed therein, is distinguished by the fact that, in order to control the distribution process of the heat carrier, the distributors are made of heat-sensitive material, and the attachment unit of each of them to the housing is made in the form of a pair of rods installed on different sides of the distributor and equipped with heating elements. 2. The collector according to claim 1, wherein the distributors are grouped in rows with a common pair of rods for each row, and the heating elements are placed in each pair in alternating order, _o SU „„ 1276901 A1