SU676832A2 - Centrifugal heater - Google Patents

Description

one

The invention relates to a drying and evaporation technique and can be used in disc spray dryers with preheating materials and in centrifugal film evaporators designed to dry or evaporate heat-sensitive food, chemical and pharmaceutical products.

According to the main author. St. No. 361368 is known for a centrifugal heater, for example, a spray gun in a drying installation containing a hollow rotor partially filled with a working fluid, and electric heaters located in the cavity of the rotor along its circumferential periphery.

When this centrifugal heater is operating, the working fluid is thrown off by the centrifugal force to the periphery of the cavity and covers the electric heating elements with a uniform thickness. When heated, it evaporates, reaches the working surfaces of the heater, condenses, giving off heat to the working surfaces, and returns to the electric heating elements. . .-:. .

The disadvantage of the described centrifugal heater is reduced efficiency. Reduced efficiency is due to the fact that the direction of movement

the vapor of the working fluid does not coincide with the direction of movement of its condensate.

In this case, the flow of the condensate film slows down, its thickness increases. This circumstance, as well as the presence of even small impurities of non-condensing gases, can significantly reduce the heat transfer coefficient during condensation, and hence the heat flux density of the centrifugal heater.

The aim of the invention is to increase efficiency by increasing the heat flux density.

This goal is achieved in that a horizontal disk provided with a central hole is installed in the cavity of the rotor with a gap relative to its upper wall, the diameter of which is less than the internal diameter of the rotor, but more than the diameter of the circle surrounding the electric heating elements.

In addition, on the upper surface of the disk on its periphery can be made annular chute.

The drawing shows a centrifugal heater, a general view .;

The centrifugal heater contains a hollow rotor 1, partially filled with a working fluid, and electric heating elements 2 located in the cavity of the rotor 1 along its annular periphery. In the cavity of the rotor 1 with a gap relative to its upper wall there is a horizontal disk 4 provided with a central hole 3, the diameter of which is less than the internal diameter of the rotor 1, but larger than the diameter of the circumference covering the electric heating elements 2. An annular groove 5 is made on the upper surface of the disk 4. Horizontal disk 4 is installed in the cavity of the rotor 1 on the racks 6.

The rotor 1 is driven to rotate. In this case, the working fluid is thrown by centrifugal force to the periphery of the rotor 1 and covers the electric heating elements 2. Then the electric heating elements 2 are turned on, the heat from which is transferred to the working liquid, which causes the latter to evaporate. The steam passes first between the bottom wall of the rotor 1 and the bottom surface of the disk 4, and then through the hole 3 gets into the gap between the top steak of the rotor 1 and the top surface of the disk. On the upper wall of the rotor 1, the steam is condensed, and the condensate returns by centrifugal force through the gap between the end face of the disk 4 and the side wall of the rotor 1 to the electric heating elements 2. Non-condensable gas in the cavity of the rotor 1

The bursts are displaced by the steam flow into the very bottom of the condensation and accumulate in the annular groove 5. In the centrifugal heater proposed, the steam moves in the gap between the upper surface of the disk 4 and the upper wall of the rotor 1 in the direction from the center of the rotor 1 to its periphery, which coincides with the film movement condensate on the upper wall

rotor 1. At the same time, the thickness of the condensate film decreases and the heat transfer coefficient increases with condensation. The latter increases the density of the heat flow through the upper wall of the rotor 1 and the efficiency of the latter.

Claims (2)

1. The centrifugal heater on the author. St. No. 361368, characterized in that, in order to increase efficiency, a rotor with a gap relative to its upper wall above the electric heater 3 is installed with a horizontal hole provided with a central hole, the diameter of which is smaller than the inner diameter of the rotor, but larger than the diameter of the circle surrounding the electric heating elements. 2. A centrifugal heater according to claim 1, characterized in that an annular groove is provided on the upper surface of the disc along its periphery. . / 7 Yu