SU1021912A1 - Unit for cooling agressive media - Google Patents

Abstract

INSTALLATION FOR COOLING AGGRESSIVE MEDIUMS: containing heat exchangers with steam and liquid cavities for the intermediate coolant and heat exchange surfaces connected in series with the formation of autonomous circulation circuits for working media, and the heat exchange surfaces of the first circuit are located in the fluid cavity of heat exchangers differing from those that, in order to intensify heat exchange, the vapor and liquid cavities of each heat exchanger are additionally communicated by There is an external bypass line, and each heat exchange surface of the second circuit is built into the corresponding bypass line.

Description

The invention relates to heat exchange equipment and can be used in the energy and chemical industries.

Known desalination plant containing heat exchangers with steam and liquid cavities, in which channels for the passage of the working medium are placed one above the other [1].

The disadvantage of this installation is that the intermediate coolant 1 is in an open volume, which reduces the reliability of the installation.

Closest to the invention, the technical solution is an installation for cooling aggressive media, comprising heat exchangers with steam and liquid cavities for an intermediate heat transfer medium and heat exchange surfaces connected in series with the formation of autonomous circulation circuits for working media, the heat exchange surfaces of the first circuit being located in . liquid cavity heat exchangers [2].

A disadvantage of the known installation is the low heat transfer coefficient, which leads to an increase in the dimensions of the installation and reduces the manufacturability of the cooling process as a whole.

The aim of the invention is the intensification of heat transfer. 3

This goal is achieved by the fact that in an installation for cooling corrosive media containing heat exchangers with steam and liquid cavities for an intermediate heat transfer medium and heat exchange surfaces connected respectively to form autonomous circulation circuits for working fluids, the heat exchange surfaces of the primary circuit being placed in a liquid cavities of heat exchangers, steam and liquid cavities of each heat exchanger are additionally communicated via an external bypass line ii, and each heat exchange surface of the second circuit is built into the corresponding bypass line. 45

The drawing schematically shows the proposed installation for cooling aggressive environments.

The installation contains heat exchangers 1 with steam 2 and liquid 3 cavities for the intermediate heat transfer medium 5C and heat exchange surfaces 4 and 5 connected in series with the formation of autonomous circulation circuits 6 and 7 for working fluids, the heat exchange surfaces 4 of circuit 6 being placed in the liquid cavity 3 of the heat exchangers 1, steam 2 and liquid 3 cavities of which are additionally communicated by means of an external bypass line 8, and each heat exchange surface 5 of circuit 7 is integrated in the corresponding bypass iniyu 8.

The heat exchange surfaces 5 of the circuit 7 can be made in the form of a finned tubular heat exchanger, the tube space of which is built into the bypass line 8.

Installation for cooling aggressive environments works as follows.

Cooled aggressive liquid, for example sulfuric acid, leaving the source with a temperature of 80–90 ° C, is fed sequentially through the tube bundles of each heat-exchange surface 4. When cooled to 60–70 ° C, it enters the storage of cooled aggressive liquid.

Cooling medium, for example, air of ventilation systems, leaving the source of the cooling medium with a temperature of (–10) - (–30 ° C) passes sequentially through the annular spaces of a number of heat exchange surfaces 5 with finned tubes, heats up to 18–20 ° C and flows to the consumer heat.

Vapors of the intermediate heat carrier from the vapor cavity 2 of the heat exchanger 1 enter the tube space of the heat exchange surfaces 5 with finned tubes, condense, giving off the condensation heat passing through the annulus of the cooling medium and the condensate returns to the liquid cavity 3 of the corresponding heat exchanger 1.

Thus, in the bypass lines 8 there is a circuit of natural circulation of vapors of the intermediate coolant and the heat transfer coefficient increases.

The presence of an external bypass line in each heat exchanger contributes to the directional movement of the vapors of the intermediate heat carrier, which intensifies the heat transfer and reduces the overall dimensions of the installation.

Compiled by V. Kosenko Editor N. Jugan Order 4018/29 Tehred I. Veres Corrector G. Reshetnik Circulation 672 Subscription

VNIIIPI of the USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh-35, Raushskaya nab., D. 4/5

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

INSTALLATION FOR COOLING AGGRESSIVE MEDIA: containing heat exchangers with steam and liquid cavities for an intermediate heat transfer medium and heat exchange surfaces connected in series to form autonomous circulation circuits for working media, the heat exchange surfaces of the first circuit being located in the liquid cavity of heat exchangers, characterized in that, in order to intensify heat transfer, the vapor and liquid cavities of each heat exchanger are additionally communicated by means of waist bypass line, and each heat exchange surface of the second integrated circuit to the corresponding bypass line. <e