RU85900U1 - INSTALLATION FOR REGENERATION OF WASTE INDUSTRIAL OILS - Google Patents

Abstract

1. Installation for the regeneration of used industrial oils, containing a pre-filter connected to the valve, an inlet oil pump, a degasser tank with inlet and outlet nozzles, the first outlet of which is connected to the vacuum pump through a vapor condenser-separator, and the second to the outlet an oil pump, an output filter, a container for introducing additives connected to the output of the installation, characterized in that it is equipped with a heater and a device for forming a thin-layer oil flow, the input of which connected to the output of the inlet oil pump, and the output is connected to the inlet of the degasser vessel, the heater input is connected to the output of the pre-filter, and the output is connected to the input of the input oil pump, the output of the output oil pump is connected to the output of the unit through the output filter. ! 2. Installation for the regeneration of used industrial oils according to claim 1, characterized in that the device for forming a thin-layer oil flow contains a cylindrical body, to the lower part of which is attached a cap with nozzles and a conical nozzle.

Description

The utility model relates to installations for the purification and regeneration of used industrial oils and can be used in various industries.

A known installation for the regeneration of transformer and turbine oils containing a coarse filter, a pump, a heater, a drying unit, silica gel adsorbers and a fine filter (SU 1310424, C10M 175/02, 1987).

The disadvantage of this installation for the regeneration of transformer and turbine oils is a significant consumption of adsorbents and the problem of disposal of used adsorbent.

A known installation for the regeneration of used motor oils, including a container for supplying regenerated oil, a collection for refined oil and a vacuum distillation unit, comprising a device for spraying oil, an evaporation apparatus, a heat exchanger, a vacuum pump, a vacuum distillation unit (RU 2186096, С10М 175/02, B01D 36/00, 07.27.2002).

The operation of this installation is associated with the multiple conversion of the regenerated oil into a steam-oil emulsion. Despite the partial use of heat released during condensation and cooling of distilled fractions, the disadvantages of this installation include a high specific energy consumption.

Closest to the technical nature of the claimed is the installation for the regeneration of used industrial oils, including an inlet oil pump connected to a pre-filter and a valve, a filtration device, a degasser tank with inlet and outlet pipes, outlet oil and vacuum pumps, inlet and outlet pumps valves, distributor and condenser-vapor separator (RU 2142980, С10М 175/02, B01D 36/00, 12.20.1999).

The disadvantage of this installation is the significant loss of oil due to the removal of oil particles by a vacuum pump into the condenser-separator of oil vapors together with the pairs of pollutants and due to mixing them with pollutants after condensation, a significant consumption of adsorbents and the problem of disposal of the used adsorbent, as well as the high energy consumption spent spraying contaminated oil and creating a deep vacuum.

The objective of the utility model is to reduce the loss of used industrial oils while maintaining a high degree of purification, as well as significantly reduce the consumption of energy and adsorbents for the regeneration of used industrial oils.

The technical result is achieved by the fact that the installation for the regeneration of used industrial oils, containing a pre-filter connected to the valve, an inlet oil pump, a degasser tank with inlet and outlet nozzles, the first outlet of which is connected to the vacuum pump through a vapor condenser-separator, and the second - to the output oil pump, an output filter, a container for entering additives, connected to the output of the installation, it is equipped with a heater and a device for forming a thin layer flow asla, the input of which is connected to the output of the input oil pump, and the output is connected to the input pipe of the degasser vessel, the heater input is connected to the output of the pre-filter, and the output is connected to the input of the input oil pump, the output of the output oil pump through the output filter is connected to the output of the installation .

The device for forming a thin-layer oil flow contains a cylindrical body, to the lower part of which a cap with nozzles and a conical nozzle are attached.

Figure 1 presents a schematic diagram of an installation for the regeneration of used industrial oils.

Figure 2 presents the device for forming a thin layer oil flow.

The installation for the regeneration of used industrial oils contains a serially connected inlet valve 1 (Fig. 1), an inlet pre-filter 2, a heater 3, an inlet oil pump 4, a device for forming a thin-layer oil flow 5, the outlet of which is connected to the inlet of the degasser vessel 6, the first outlet pipe of which is connected to the input of the condenser-separator of oil vapor 7 with a vacuum gauge 8 and a plug 9 for draining sludge oil, the output of which is connected to the input of the vacuum pump 10, the second output of the tank is gazatora 6 is connected through the outlet to the outlet oil pump 11 is pumped in the tank degassing 6 degassed oil, output filter 12, whose input is connected with an outlet of the oil pump 11, and an output connected to the output capacitance for inputting additives 13 and a yield of the installation.

The device for forming a thin-layer oil flow 5 (figure 2) contains a cylindrical body 14, to the lower part of which is attached a cover 15 with nozzles 16 and a conical nozzle 17.

Installation for the regeneration of used industrial oils is as follows.

Pre-treated with chemical reagents, contaminated oil with the inlet valve 1 open (Fig. 1) through the pre-filter 2, where it is cleaned of coarse (larger than 100 microns) mechanical impurities, enters the heater 3, where it is heated to 80 ° C. The heated oil by pump 4 is fed into the housing 14 (FIG. 2) of the device for forming a thin-layer oil flow 5. A thin-layer oil flow is formed placed in the cover 15 of the device for forming a thin-layer oil flow 5 by nozzles 16 and a cone nozzle 17. Oil enters the degasser vessel 6 with a thin-layer flow in the form of an expanding cone. The vacuum pump 10 provides a vacuum in the degasser vessel 6 of 10 ⁴ Pa, and also removes water vapor and low boiling impurities that evaporate from a thin layer of oil under the influence of temperature and vacuum, into the vapor condenser-separator 7, where these vapors condense and periodically merge from the case of the condenser-vapor separator 7 through the drain plug 9. The oil purified from dissolved water and impurities is pumped out of the degasser vessel 6 by the pump 11 and fed to the input of the output filter 12, and after filtration to enter additives and h capacity 13.

Purification of oil from dissolved water and low boiling impurities is an important step in the process of recovery of waste oils. Two of the four rejection indicators established by the "Typical Instructions for the Maintenance of Hydraulic Equipment of Railway Construction Machines" No. TsPO-3.2000 p. 12.4.8, namely: the water content and flash point in an open crucible depend on the efficiency of the oil vacuum cleaning process. The device for the formation of a thin-layer oil flow 5, in contrast to the prototype, does not cause the oil jet to break down into small particles of spray and oil mist, but forms an oil flow in the form of the surface of an expanding cone, which provides a high degree of purification while reducing oil losses and acquisition costs and utilization of adsorbents, energy consumption for dispersion (pressure at the inlet to the device 5 0.1-0.2 MPa, in the prototype 0.2-0.6 MPa) and for creating a vacuum in the degasser 6 (10 ⁴ Pa, in the prototype - 10 ^-2 Pa). The proposed installation is made in the form of a pilot sample. The high efficiency of oil purification from water and low boiling impurities up to the level of requirements of ЦСО-3.2000 is confirmed by laboratory findings on quality.

Claims (2)

1. Installation for the regeneration of used industrial oils, containing a pre-filter connected to the valve, an inlet oil pump, a degasser tank with inlet and outlet nozzles, the first outlet of which is connected to the vacuum pump through a vapor condenser-separator, and the second to the outlet an oil pump, an output filter, a container for introducing additives connected to the output of the installation, characterized in that it is equipped with a heater and a device for forming a thin-layer oil flow, the input of which connected to the output of the inlet oil pump, and the output is connected to the inlet of the degasser vessel, the heater input is connected to the output of the pre-filter, and the output is connected to the input of the input oil pump, the output of the output oil pump is connected to the output of the unit through the output filter. 2. Installation for the regeneration of used industrial oils according to claim 1, characterized in that the device for forming a thin-layer oil flow contains a cylindrical body, to the lower part of which is attached a cap with nozzles and a conical nozzle.