SU802440A2 - Device for heating and continuous dehydration of organic binders - Google Patents

Description

The invention relates to road construction, in particular to devices for preparing organic binders before use.

According to the main author. St. No. 654724, there is known a device for heating and continuous dewatering of organic binders, including a tank with heaters installed inside it, a heating system, a heat exchanger, a steam separator in the form of a cylindrical chamber with a heat jacket, a slot nozzle and an inclined partition opposite to that mounted on the other end, connected with slotted nozzle bitumen pipe and gas outlet.

The disadvantage of this device is the relatively low efficiency of heat transfer due to the irrational dimensions of the heat exchanger, which eliminates the possibility of increasing productivity by intensifying the processes of heating and dehydration of binders.

The purpose of the invention is to increase productivity due to the intensification of the processes of heating and dehydration.

This is achieved by the fact that in a device including a tank with heaters installed inside it, a heating system, a heat exchanger, a steam trap in the form of a cylindrical chamber with a heat jacket, a slot nozzle and an inclined partition opposite to the slot nozzle mounted on the other end, connected to the slot nozzle, a bitumen conduit and an outlet gas outlet, the length of the heat exchanger exceeds its diameter by 9-15 times, and the diameter in meters is determined from the relation d = (1.3 - 2.7) (q _v , where Qy is the amount of binder passing through the heat exchanger, m b / from.

In this case, the heat exchanger is made with a heat jacket.

The drawing shows a diagram of the proposed device.

The device has a tank 1, divided by a partition 2 into a compartment 3 of pre-dehydrated and a compartment 4 of finished binder material., A combustion chamber 5, heaters 6 in the form of pipes located in the tank 1 that communicate with the chimney 7, pumps 8 and 9, a mixing heat exchanger 802440 bar 10 with a heat jacket 11, a steam separator in the form of a cylindrical chamber 12 with a heat jacket (not shown ^ and a slotted nozzle 13, an exhaust pipe 14, taps 15, 16 and 17, pipelines'18, 19, 20, 21, 22, 23, 24 and 25, the consumer of cementitious material 26 and the inclined partition 27..

Heating and dehydration are as follows.

Before starting continuous operation, the container 1 through the pipeline '18, valve 15, pipe 19, pump 8, valve 16 and pipe 20 is filled with flooded binder to the minimum acceptable level, about 100 mm above the level _{h of} heaters 6.

Then the valve 15 is closed, the furnace 5 is turned on and the binding material is circulated along the contour: tank 1, pipe 20, valve 16, pump 8, pipe 21, mixing heat exchanger 10, pipe _{No. 1} . 20, steam trap 12, tank 1.

After the binder material ·· is dehydrated and heated to the required operating temperature, the valve 15 opens again and the water-fed material is supplied to the heat exchanger 10 simultaneously with the dehydrated material through the pipe 18 and the valve 15, which, getting into the heat exchanger 10, is heated by the heat of the dehydrated material and walls of a heat exchanger heated by a heat jacket 11, while part of the moisture passes into steam.

The mixture of binder and steam formed in the heated mixing heat exchanger 10 passes through the pipe 22 to the nozzle 13 of the steam-40 separator 12, when sprayed, the released steam exits through the pipe 14. and the material having some residual moisture, reflected from the inclined partition 27, merges into the compartment 3. In contact with the hotter surface of the binder, the residual moisture evaporates and is removed through the exhaust pipe 14. From the compartment. 3, passing under the partition 2, the material enters the compartment 4, and from the compartment 4 through the pipe 23, the valve 17, the pump 9 and the pipe 24 the material is supplied to the consumer 26, from where the excess is returned through the pipe 25 to the compartment 4 of the tank 1.

This embodiment of the device provides, due to the rational dimensions of the heat exchanger, reducing fuel consumption and metal consumption, as well as accelerating heating and dehydration processes, which will increase productivity and reduce consumption ’of materials and production costs.

Claims (2)

Claim 1. Device for heating and continuous dehydration of organic binders according to ed. St. No. 654724, characterized in that, in order to increase productivity due to the intensification of heating and dehydration processes, the length of the heat exchanger exceeds its diameter by 9-15 times, and the diameter is determined from the relation d = (1.3 - 2.7) iQ _v , where Q _Y is the amount of binder passing through the heat exchanger, m ^} / s; <3 - diameter of the heat exchanger, m 2. The device according to π. 1, characterized in that the heat exchanger is made with a heat jacket. Branch of PPP Patent, Uzhhorod, st. Project, 4