SU968053A1 - Apparatus for preparing bitumen from tar - Google Patents

Description

The invention relates to the field of road construction, namely to devices for preparing bitumen from tar.

A known installation for producing bitumen by air oxidation, consisting of a reactor cube and dispersants, made in the form of a hollow rotating shaft, placed inside the cube in an oxidized product layer. Open from the upper end with a horizontal pipe, a crosspiece, an ejector or an impeller supplied at the immersed end 1.

However, this plant in the production of bitumen does not allow sufficient use of oxygen from barbed air due to its short residence time in the reactor cube and large bubble sizes, which precludes obtaining high quality bitumen, and when introducing a large amount of air, beneficial for bitumen was kcih.

Closest to the present invention is an installation for the preparation of bitumen from tar, including a reactor cube with a level indicator, a pipe for venting and located on opposite sides of nozzles for introducing and draining tar, a heater, an air blower, a tank connected to the cube, a pump and pipelines with valves 2 J.

The known installation is more efficient due to the continuity of the process.

10 of bitumen production, however, the oxidation of tar proceeds slowly, and the air in the tar in the form of large bubbles reduces the quality of the bitumen being prepared.

The purpose of the invention is to intensify the process and improve the quality of the bitumen being prepared.

The goal is achieved by the fact that in the installation, including a reactor cube with a level indicator, a pipe for exhaust of gases and pipes located at opposite sides for inlet and outlet 1, udron, heater, air blower, tank connected to the cube, pump

25 and pipelines with shutoff valves, the reactor cube is equipped with additional nozzles for the introduction and removal of tar, the tank — inside it is perforated 14 with a pipe line connected to a supercharger

air, and the heater is installed in the lower part of the reactor cube, the container is cylindrical, an additional pipe for introducing tar is placed under the main pipe at the bottom of the reactor cube and connected to the end of the vessel, and an additional pipe for tar removal is installed above the main pipe tar and is connected through a pump to the other end of the tank.

The proposed design of the installation for the preparation of bitumen from tar allows an increase in the use of air oxygen in connection with an increase in the time of its contact with tar, which leads to a decrease in air consumption and an increase in the quality of bitumen.

The drawing shows schematically an installation for preparing bitumen from tar.

The installation contains a reactor cube 1 with a heater 2 for dewatering and heating-tar, including a furnace 3, a device 4 for determining the liquid level, an exhaust gas outlet 5 connected through the device 6 for decontamination with the chimney 7 and charging ports 8 and discharge of tar 9 (bitumen), pump 10 and air blower 11. The installation also includes an additional tar of the tar extraction side 12 located above the main pipe 9 at the upper boundary 13 of the tar oxidation zone, an additional tar supply pipe 14 into the reactor located below the main pipe 8 at the bottom of the reactor cube 1. An additional pipe 12 through the pump 10 connected to a cylindrical tank 15, inside of which a perforated pipe 16 is located, the other end 17 of the vessel 15 through a nozzle section 18 is connected to an additional pipe 14. The perforated pipe 16 through the valve 19 is in communication with the air compressor 11. The installation also includes cranes 20, 21 and technological pipelines.

The installation works in the following way.

Crude watered tar is introduced into the reactor cube 1 through nozzle 8 after opening the valve 20. The level of tar is controlled according to the indication of device 4. The furnace 3 is activated, the combustion products from which the passage through the heater 2 gives off heat to the tar, is dehydrated and heated up to operating temperature. The combustion products through the flue 7 enters the atmosphere. To speed up the heating of tar

the pump 10 and tar is taken out through the nozzle 12 and is again supplied by means of the nozzle 14 to the lower part of the reactor cube 1, where it is directed to the heater 2 as a jet, thus raising its temperature. More intense heat transfer is achieved when air is supplied to tank 15 from air blower 11 through valve 19 and perforated pipe 16 to form a gas-liquid state of tar. When tartar in this state hits heater 2, besides increasing the heat transfer surface, heating also occurs due to the release of exothermic heat of the oxidation reaction, which occurs on dewatering and heating of tar. After heating the tar to a temperature equal to

turn off the furnace 3 and set the estimated air supply. In this case, a liquid-gas flow with large air bubbles is formed in the container 15, which

5, section 18, being crushed into small bubbles, expires at high speed into tar and quenches along the length of cube 1, continuing the process of oxidation and mixing of tar.

The most intensive process takes place at the volumetric concentration of air in the tar at the end of the nozzle 14 not exceeding the value of 0.7.

After preparation of the necessary tar grade from tar, it is discharged through pipe 9 and tap 21.

 Such an embodiment of the installation provides a reduction in the bitumen preparation process due to the intensification of the mixing of the liquid, an increase in the heat transfer coefficient to the use of the heat of the exothermic oxidation of tar.

The proposed installation is also structurally easier known, and its

5 the application will allow to prepare bitumen of higher quality and, thus, increase the durability of road surfaces.

Claims (2)

1. Author's certificate of the USSR 435261, cl. C 10 C 3/04, 1972, 2. USSR author's certificate for application 2870658 / 29-33, cl. C 10 C 3/12, 1980.