SU787859A1 - Film contact-type heat exchanger - Google Patents

Description

(54) FILM CONTACT HEAT EXCHANGER

Claims (1)

The invention relates to a power system, in particular, to non-contact-contact heat exchangers, and can be applied in power engineering, chemical, refrigeration and transport engineering. A film-contact heat exchanger is known that contains coaxial film-enclosed surfaces fixed on the rotor, forming channels, the inlet and outlet openings of which are connected to the air inlet and air outlet pipes, respectively, and the water distributor. The fluid inlet and outlet tubes are located in planes perpendicular to the axis of rotation of rotor 1. The disadvantage of this heat exchanger is insufficient heat transfer due to the short residence time of the fluid in the core of the heat exchanger. The purpose of the invention is to intensify heat transfer. To achieve this goal, the heat exchanger is equipped with shells fixed on the rotor coaxially to one another in the form of a truncated cone with a large base from the air inlet side, while the cavities between the shells at the inlet are connected to the water distributor and to the outlet openings of the channels. FIG. 1 shows schematically a heat exchanger, a cross-section; in fig. 2 — node I in FIG. 1 (cross section of the distribution pipe). In the heat exchanger housing 1, a fan 2 with a drive 3 and a common drive 4 of film-bearing surfaces 5, made in the form of truncated cones, expanding along the air flow and fixed on the rotor 6, are placed. On the rotor 6 there are shell 7, also made in the form of truncated cones, but narrowing down the air. The cavities between the shells 7 at the inlet are connected to the water distributor 8 and at the outlet to the outlet openings of the channels formed by film-bearing surfaces 5. A common collector 9 is provided to collect the cooled liquid. The heat exchanger works as follows: the liquid from the distributor 8 is fed to the inner surfaces of the shells. 7 from the smaller section. Under the action of centrifugal forces, a thin film of liquid is formed, moving towards the larger section of the cones /, and through the holes in the walls of the latter gets onto the inside of the film-bearing surfaces 5. The cooled liquid is collected in the common collector 9. The fan 2 rotates in the opposite direction of the systems film-bearing surfaces 5 and shells 7. It pumps air into the annular channels between the cones, where it is in direct contact with a film of liquid, cooling it. The heated and moistened gas is emitted into the atmosphere. The multi-pass movement of the cooled fluid allows an increase in the time of its interruption in the active zone of the heat exchanger. This contributes to an increase in heat dissipation ability and provides a deeper cooling of the fluid. Claims of a film-contact heat exchanger containing coaxially mounted, uncontrolled surfaces fixed on the rotor, forming channels whose inlet and outlet openings are connected to the air inlet and air outlet pipes, respectively, and a water distributor, characterized by the fact that the heat exchanger is equipped with reinforced pipes the rotor is coaxial to each other by shells in the form of a truncated cone with a large base on the side of the air inlet pipe, while the cavities between the shells on the inlet the clothes are connected to the water distributor, and at the outlet - to the outlet openings of the canal °. Sources of information taken into account during the examination 1 USSR Author's Certificate No. 666414, cl. F 28 C 3/06, 1976. j / zeu / )