SU1725971A1 - Method of automatic control of process of dewatering suspension in drum or belt-type vacuum filter - Google Patents

Abstract

The invention relates to methods for automatically controlling technological processes for dewatering suspensions in a drum or belt vacuum filter. The use of the invention will stabilize the amount of moisture in the sediment. On a belt or drum vacuum filter, the humidity of the sediment and the filter performance are measured by the draft and the speed of the belt or the rotation of the drum of the vacuum filter is influenced by the signal proportional to the change in the performance of the vacuum filter’s draft on its humidity, corrected by feed slurry density. 1 ill., 1 tab. cl

Description

The invention relates to methods for controlling the processes of dewatering slurry in a drum (or belt) vacuum filter and can be applied in the potash, mining and chemical industries.

The aim of the invention is to stabilize the amount of moisture in the sediment.

The drawing shows a schematic diagram of an automatic control system implementing this method.

The method is carried out as follows.

The feed suspension enters the belt (or drum) vacuum filter 1. The precipitate formed during the dehydration of the suspension enters the conveyor 2. The humidity of the sediment is monitored by sensor 3, the performance of vacuum filter 1 by the precipitate is sensor 4, and the density of the feed suspension by sensor five.

The signal from the transmitter 3, proportional to the moisture content of the precipitate, and the signal from sensor 4, proportional to the performance of the vacuum filter 1 to the precipitate, are sent to multiplier 6, where they multiply. From multiplication unit 6, a signal is removed proportional to the amount of moisture in the sediment. When the performance of the vacuum filter 1 or the moisture content of the sediment (or both of the parameters together) changes, the signals from sensors 4 and 3, proportional to these changes, change accordingly the output signal of the multiplication unit 6 is proportional to the change in the amount of moisture in the sediment. A signal proportional to the change in the amount of moisture in the sludge is fed to the regulator 7, which acts

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to the actuator 8, changing the speed of the belt or the rotation of the drum in such a way that stabilizes the amount of moisture in the sediment at a given level. The signal from sensor 5, proportional to the density of the feed slurry, also goes to the controller 7, correcting its main regulating effect on the electric drive 8. The correction signal on the density of the suspension is a warning signal, as it generates forward information on the controller 7 change the quality of the suspension supplied to the vacuum filter 1.

An example of the method implementation is presented in the table, where comparative hourly average values are given for one shift of the main parameters of operation of a vacuum belt filter in the basic and given control modes.

In the basic mode, the speed of the tape varies with the moisture content of the sludge, taking into account the density of the feed slurry.

In the mode of this method, the speed of movement of the tape varied depending on the amount of moisture in the sediment with a correction in the density of the feed slurry.

In columns 3, 8 of the table, the hourly average values of the speeds of the movement of the vacuum filter belt during the shift are presented.

changes which occurred under the influence of the effect on the speed regulator.

Comparison of the data given in the table shows the advantage of the operation of the vacuum filter when the amount of moisture in the sediment is stabilized by changing the speed of the tape. The standard deviation of the controlled variable — the amount of moisture in the sediment in this control method is 0.029, in the baseline - 1.871.

The exclusion of changes in the amount of moisture in the sediment leads to a decrease in fuel consumption when drying this sediment.

Claims (1)

Invention Formula A method of automatically controlling the process of dewatering a suspension in a drum or belt vacuum filter by measuring the moisture of its sediment and adjusting the rotational speed of the drum of the vacuum filter depending on the density of its suspension suspension, characterized in that the performance of the vacuum filter on the draft, calculate the amount of moisture in the sediment by measuring its humidity and the performance of the vacuum filter on the draft and adjust the speed awn rotating the drum depending on the calculated amount of moisture in the sludge. WITH Sediment )