SU1041840A1 - Method of controlling process of drying granular black in drum - Google Patents

Abstract

THE METHOD OF MANAGING THE DRYING PROCESS OF GRANULAR SOJI IN THE DRUM with external heating by influencing the flow of the main heat flux depending on I.:.:, In / l-v:.es. -. | | / ,,:, 5; load drum and an additional effect on the heat flux supplied to the drum in the zone adjacent to the outlet, depending on the temperature of soot in this zone, about t and h and yush and so that, in order to increase the accuracy to stabilize the temperature of the granulated carbon black, while exhausting additional exposure to the zone adjacent to the drum outlet, a cooling flow is supplied, the growth rate of the above temperature is measured, and when the growth rate of this temperature stops increasing, the cooling flow is stopped o flow. after drinking

Description

The invention relates to a drying technique, in particular, to controlling the drying process with external heating. There are known methods for controlling the drying process of granulated soot by affecting the supply of the main heat flux depending on the drum load and an additional effect on the heat flux supplied to the drum in the zone adjacent to the outlet, depending on the soot temperature in this zone, Cl 1. : However, the known methods do not allow to achieve the required accuracy by stabi ping the temperature of the granular carbon black. The aim of the invention is to improve the accuracy of stabilization of the temperature of granular carbon black. This goal is achieved by the fact that according to the method of controlling the process. Sap of granulated soot baabane with external heating by raising the main heat flux depending on the drum load and the additional heat flux supplied to the drum in the zone adjacent to the outlet, depending on the soot temperature in this zone by exhausting an additional effect, a cooling flow is supplied to the zone adjacent to the drum outlet, the growth rate of the above temperature is measured and, when the growth rate of this temperature stops, t supplying cooling flow funkdio The drawing is a device-tional diagram realizuyuscha proposed method. The device comprises a material supply pipeline 1, a drum 2, a breakage chamber 3, a main heat flow supply pipeline 4. and an auxiliary heat flow supply conduit 5, a drum load sensor 6 for wet soot, a regulator 7, a regulator 8, flow sensors 9 and 1O air and fuel, ratio controller 11, valve 12, temperature sensor 13, converter 14, controller 15, valve 16, position controller 17, advance unit 18, instruments 19 and 20 algebraic operations, position controller 21, valve 22. A device that implements p edlagaemy method works as follows. The main heat flow is controlled by the regulator 8 by a signal from sensor 6. The auxiliary stream is controlled by a signal from temperature sensor 13, acting on valve 16 by means of regulator 15 and valve 12 by a signal from regulator 11, which receives signals from sensors 9 and 10 of flow. If the fuel consumption sensor 10 outputs the maximum squeeze, then the position regulator 17 through the device 20 controls together with the regulator 21. valve 22, while the control is determined by the temperature sensor 13 measured by the ohm sensor 13, the valve 22 is closed. Thus, the proposed method allows to increase the accuracy, temperature stabilization.

Claims (1)

METHOD OF DRYING PROCESS GRANULAR ^g CARBON BLACK IN THE DRUM externally heated by exposing the main flow / Nogo heat flux depending on the load of the drum and additional exposure to the heat flux supplied to the drum in the "zone adjacent to the exit from it, depending on the the temperature of soot in this zone, so that in order to increase the accuracy of stabilization of the temperature of the granular soot, when the additional exposure is exhausted, coolant is fed into the aeon adjacent to the exit from the drum flow, the growth rate of the above temperature is measured, and when the increase in the growth rate of this temperature ceases, the flow of the cooling flow is stopped. SU „., 1041840> ,1