SU688547A1 - Apparatus for dewatering bitumen-containing materials - Google Patents

Description

heat exchanger and reduces metal consumption and speeds up the dewatering process.

The drawing shows the proposed device, a General view, with a cut capacity.

The device has a wet bitumen feed material, pipeline 1, tank 2, heater 3 and heat exchanger 4 with outlet 5 and receiving 6 nozzles.

The container 2 is a vertically mounted cylinder with a shell 7 and a bottom 8, closed by a lid 9 with an opening 10. Inside the tank 2, in its upper part, an antifoam 11 is installed, which is a zigzag pipe 12 with ribs 13 and covers all sections of the tank 2 An antifoam 11 is connected at one end to an outlet nozzle 5, and the other with a reservoir 2, and at the point of its connection with a reservoir 2 there is a centrally fixed end of the pipeline 1. The nozzle 5 can be connected to the reservoir 2 tangentially.

The cylinder 14 is fixed to the bottom 8 of the container 2. A pump 15 is built into the incision of the receiving pipe 6. A distribution valve 16 is built between the pump 15 and the heat exchanger 4. The intake part 17 of the pipe 6 is mounted in a glass 18, which is installed with an open end inside the cylinder 14 and has a hole in the bottom 19, located above the level of antifoam agent. Under the bottom 8 of the container 2, auxiliary heaters 20 are installed, for example, electrotenes placed in the coolant 21. The scientific surfaces of the container 2 are covered with thermal insulation 22. In addition, there are taps 23 and 24 and pipelines 25 and 26 connecting the tank 2 with the nozzle 6.

The device works as follows.

The container 2 is filled with a non-flooded, for example, bitumen slightly higher than the upper edge of the cylinder 14. If the temperature of the bitumen in the container 2 is lower than the required operating temperature, for example 130-140 ° C, monitored by means of a temperature sensor 27, the distribution valve 16 should be supplied only passage of bitumen to the heat exchanger 4. Pumping the bitumen by pump 15 through the heat exchanger 4, bring the temperature of the bitumen in the tank to the required one.

Pipeline 1 from the bitumen store supplies watered bitumen at a temperature of 85-95 ° C, and entering it into a stream of hot bitumen pumped through the outlet nozzle 5. In the cavity 28 formed by the shell 7 and the cylinder 14, mixing occurs, heating of the watered bitumen and intensive foaming occurs . The foam, lifting up, is in contact with the defoamer 11, is heated, the bubbles burst, releasing water vapor, which is removed through the opening 10.

The heated bitumen is discharged into the internal cavity 29 of the cylinder 14 and goes to the intake part 17 of the pipe 6 and the pump 15 is partially supplied to the heat exchanger 4, partially through the pipeline 30 for production.

The cup 18 prevents wet bitumen from entering the nozzle 6. Possible gaseous emissions in the cup 18 are removed through the opening 19.

If it is necessary to completely remove bitumen from tank 2 for repair purposes, the taps 23 and 24 are opened and the bitumen is pumped out via pipelines 25 and 26 by pump 15.

In the event that bitumen froze in the tank 2, the heaters 20 bring the bitumen to a fluid state through the heat carrier 21 and then perform the operations described above.

The proposed design solution allows to increase the capacity of dehydration of bituminous materials due to the intensification of the evaporation process by reheating the foam, to exclude the ingress of wet material into the heat exchanger, due to the hollow cylinder and the glass placed in it, extending the path of the moist bituminous material, to reduce the metal intensity of the capacity for bituminous materials.

Claims (2)

1. A device for dewatering bitumen materials, including a tank, a supply pipe for a wetted material, a heater, a heat exchanger with output and receiving pipes, a distribution valve and a pump mounted in the section of the receiving pipe, characterized in that, in order to improve performance and ensure explosion-proof heating, the tank is supplied attached to the bottom vertically installed cylinder mounted inside the last inverted glass placed in it the end of the receiving pipe and placed in the upper part of the antifoam, made in the form zigzag bent pipe connected at one end to the outlet pipe, and the other to the bottom of the tank, with the end of the feed pipe centrally fixed in the outlet pipe before entering it in the tank. 2. A device according to claim 1, characterized in that the distribution valve is installed on the receiving pipe between the pump and the heat exchanger. Information sources, taken into account in the examination 1. USSR author's certificate number 495402, cl. E 01 C 19/08, 1973. 2. USSR author's certificate number 239998, cl. C 10 C 3/12, 1967. 3 1C p. ZS