SU943487A1 - Rotary heat exchanger - Google Patents

Description

(54) ROTARY HEAT EXCHANGER

The invention relates to a technique of ventilation and air conditioning.

Known rotary heat exchanger, comprising a housing with inlet and outlet air nozzles, supply line of the coolant and the tray and placed in the housing of the rotor with coaxial cylinders 1.

The disadvantage of this heat exchanger is the low efficiency of the degree of air humidification, since there is no possibility of providing the necessary relative humidity of air.

The goal of the invention is to increase the efficiency of the degree of air humidification.

The goal is achieved by the fact that the nozzles have sections inserted into the housing and located at the rotor coaxially with each other and eccentric to its axis of rotation, moreover, at least part of the surface of each of the rotor cylinders has a coating of hydrophobic material.

FIG. 1 shows a rotary heat exchanger, longitudinal section; in fig. 2 - surface of a cylinder with a coating of hydrophobic material.

The rotor heat exchanger includes a housing 1 with inlet and outlet air nozzles 2 and 3, a heat transfer supply pipe 4 and a pallet 5 and a rotor 6 with coaxially arranged cylinders 7 placed in the housing 1. The nozzles 2 and 3 have sections 8 and 9 inserted into the housing 1 and located at the rotor 6 coaxially to one another and eccentric to its axis of rotation, meanwhile, at least part of the surface of each

10 of the cylinders 7 of the rotor 6 has a coating of hydrophobic material 10.

The rotary heat exchanger operates as follows.

When the coolant (low potential waste water) is supplied through the pipeline by 4 jets that exit at a certain angle to the vertical, the rotor 6, under the influence of the jets, acquires rotational motions, while a part of the surface of the cylinders 7 is moistened

20 of the hydrophobic material remains dry, but is heated due to the heat capacity of the material of the cylinders 7. The injected air enters through the nozzle 2, partially interacts with a film of water on the wetted part of the surface of the cylinders 7, as a result of which it heats, moistened and partially absorbs the heat accumulated by the part of the coated cylinders from hydrophobic material 10 without moisture. As a result, the relative humidity of the heated air is determined by the size of the portion of the surface of the cylinders 7 coated with a hydrophobic material. As this portion of the surface increases, the final relative humidity of the heated air decreases, the heated air exits the heat exchanger through pipe 3. The cooled water is collected in the sump 5 and removed.

Claims (2)

1. A rotary heat exchanger comprising a housing with inlet and outlet air nozzles, a coolant supply pipe and a tray and a rotor with coaxially arranged cylinders placed in the housing, characterized in that, in order to increase the efficiency of the air humidification, the nozzles have sections inserted into the housing and located at the rotor coaxially to one another and eccentric to its axis of rotation. 2. A heat exchanger according to claim 1, characterized in that at least a portion of the surface of each of the rotor cylinders is coated with a hydrophobic material. Sources of information taken into account in the examination 1. Khavansky V.I. Investigation of the process of heat transfer in a high-speed rotor film unit for heat-humidity treatment of air with low-temperature waste water. Abstract, 1972. M tfetuita