SU1373908A1 - Diffusion oil-vapour pump - Google Patents

Abstract

This invention relates to a vacuum tube and reduces power consumption. In the bottom 2 inside the package of labyrinth rings 4 there is an accumulation tank 8 with a rod 9 and annular grooves Y. The grooves are staggered with each other with a decrease in the thickness of the bottom from the periphery to the center and are located between the rings 4. This pumping reduces the irreversible heat losses adjust the thickness of the layer of working fluid on each groove. By varying the height difference between adjacent grooves and the height of the holes in the side walls of the rings 4, it is possible to create optimal conditions for the different working fluids for the pump operation, in which the least amount of energy is expended. 1 il. i (L 00 with about 00

Description

with a capacity of 8 with grooves between the thickness of the bottom

The invention relates to vacuum technology and can be used in diffusion vacuum pumps.

The aim of the invention is to reduce energy costs.

The drawing shows a diffusion steam oil pump, a longitudinal section.

The diffusion steam-oil pump contains a cooled body 1 with a bottom 2, filled in the lower part with a working fluid 3, a package of labyrinth rings 4 placed in it, steam lines 5 with nozzles 6 installed along the axis of the housing 1, and a bottom 7 provided with a bottom located inside the package of rings 4 cumulative rod 9 and ring-10, stepped sopr - with a decrease of 2 from the periphery to the center and located between the rings.

The pump also contains an inlet 11, an outlet 12, a cooling jacket 13 and an annular space 14 formed by the wall of the housing 1 and the outer ring of the bag. The pump works as follows. When the heater 7 is turned on, the working fluid 3 heats up and evaporates. The resulting vapors of the working fluid 3 flow through the steam lines 5 to the nozzles 6, flow out of them to form a working jet, which entrains the gases entering the inlet 11. The vapors of the working fluid 3 are then condensed on the walls of the housing 1 cooled by the water supplied to the cooling jacket 13 . The working fluid 3 then flows along the wall of the housing 1, enters the annular space 14, then flows through the outer ring 4 of the bag and into the outer annular groove 10, where a thin layer of working fluid 3 forms and film evaporation begins. Fluid 3 falls on

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The thickness of the film evaporator layer. Intensive evaporation of the working fluid 3 leads to a decrease in the temperature and rapid wetting of the surface of the annular grooves 10. As a result, the electric power consumption for gas pumping is reduced.

Bottom 2 with annular grooves 10 improves the fractionation of the working fluid 3. At each stage, the most volatile part of the working fluid evaporates, and the remaining high boiling fraction falls into storage tank 8.

Since the mass bottom 2 changes from the periphery to the center, with the same flow in the peripheral groove, where the low boiling fraction of the working fluid 3 evaporates, the temperature at the ring groove, where the high boiling fraction evaporates, is minimal, the thickness of the bottom 2 is minimal, and the temperature is greatest. Due to this, there is also an economy of electricity. From the surface of the working fluid 3 in the tank 8, evaporation occurs, however, no boiling occurs; the heat is removed through the rod

The proposed design of a diffusion steam pump with a bottom 2 with annular grooves 10 and a capacity of 8 allows reducing the resilient heat loss, adjusting the thickness of the working fluid 3 on each groove 10. Change the height difference between adjacent grooves and the height of the holes in the side walls of the labyrinth rings 4 It is possible to create optimal conditions for the operation of the various working fluids for the operation of the pump, in which the least amount of energy is expended.

Formulas

the invention

A diffusion steam oil pump containing a cooled housing with the bottom filled in the bottom of the

the next annular groove 10 tol-50 barrel liquid placed in it

0

five

0

five

0

five

0

The thickness of the film evaporation layer. Intensive evaporation of the working fluid 3 leads to a decrease in temperature and rapid wetting of the surface of the annular grooves 10. As a result, the power consumption for gas pumping is reduced.

Bottom 2 with annular grooves 10 improves the fractionation of the working fluid 3. At each stage, the most volatile part of the working fluid evaporates, and the remaining high-boiling fraction falls into storage tank 8.

Since the mass bottom 2 changes from the periphery to the center, with the same flow in the peripheral groove, where the low boiling fraction of the working fluid 3 evaporates, the very low temperature at the ring groove, where the high boiling fraction evaporates, the bottom thickness 2 is minimal, and the temperature is greatest. Due to this also occurs, save electricity. From the surface of the working fluid 3 in the tank 8, evaporation occurs, but one-time violent boiling up does not occur, since heat is removed through the rod 9.

The proposed design of a diffusion steam pump with a bottom 2 with annular grooves 10 and capacity 8 reduces irreversible heat loss, adjusting the thickness of the working fluid 3 on each groove 10. Changing the height difference between adjacent grooves and the height of the holes in the side walls of the labyrinth rings 4 to create optimal conditions for the operation of different working fluids for the pump, in which the least amount of energy is expended.

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Formulas

the invention

Diffusion steam-oil pump containing a cooled housing with a bottom, filled in the lower part with a working fluid, placed in it

ko through a hole in the labyrinth ring. Making the way through the maze and evaporating in the course of the movement, the working fluid enters the accumulative

The chat design of the bottom 2 with a tank 8 in the central part allows you to create at each step the necessary labyrinth ring package, installed along the body axis of steam pipes with nozzles and a heater, characterized in that, in order to remove capacity 8 with the rod 9. Step 55, energy costs, bottom stocked

cumulative capacity with a rod and annular grooves located inside the package of rings, stepwise

313739084

conjugate to each other with a diminution of the center and located between the bottom of the TOL1CINA collar from the periphery to the center.

Claims (2)

Claim A diffusion steam-oil pump containing a cooled case with a bottom, filled in the lower part with a working fluid, a package of labyrinth rings placed in it, steam pipelines with nozzles installed along the body axis and a heater, characterized in that, in order to reduce energy consumption, the bottom is equipped with an inside of the ring package storage tank with a rod and annular grooves, stepwise 3 1373908 4 conjugated to each other with a narrow center and located between the bottom thicknesses from the periphery to the cams.