SU772996A1 - Method of automatic control of cement raw slime production process in a flow - Google Patents

Description

ka n + 1 pumps and constant level tanks (n is the number of intermediate sludges). The use of a large number of auxiliary tanks and pumps considerably complicates the technological scheme, increases capital and operating costs and leads to an increased energy consumption.

The purpose of the invention is to simplify the process of regulating .JQ

This is achieved by the fact that in the method of automatic control of the preparation of cement-slurry sludge in the stream, including the flow of intermediate sludge from horizontal basins to the finished sludge pool, measurement and change of costs of the intermediate sludge and chemical analysis of the finished sludge the final sludge is fed 20 intermediate sludges to one transporting pump; in the process of measuring the costs of the intermediate sludges, the level in the horizontal bass is determined The total flow rate and 25 ratio of intermediate sludge costs are calculated, after chemical analysis, the specified ratios of intermediate sludge costs are determined by the chemical analysis of samples of ready-made, sludge and total sludge intermediate sludge, and the supply of intermediate sludge from horizontal basins reaching measured values; not less than half of the maximum possible value; and changing the costs of the intermediate sludges is carried out until the ratio and measured expenditure of a given setpoint .40

The drawing shows a schematic process line for the preparation of cement raw material sludge in a stream, an implementation method.

Intermediate sludge from horizontal and primary pools 1,2 continuous flows through trunk lines 3.4 to enter the vortex pump 5. Sludge flows in the vortex pump 5 are mixed and transported in one stream JQ

to the pool, finished sludge 6.

Sensors 7/8 of electromagnetic flow meters and damper regulator 9,10 are mounted on the main line of ishamoprovods 3.4 at the outlet of sludge from pools 1,2. The rahodrometers 7.8 and the control valves 9.10 are connected to the computing and control devices 11.

The unit 12 of the device 11 establishes a predetermined flow rate of intermediate sludge from pools 1,2. The numerical value of the flow rate of said sludge is determined according to the chemical analysis of samples of the finished sludge collected by accumulative sampling

NIKOM, which is taken at the outlet of the pump 5, and the total flow rate of all intermediate sludges, the numerical value of which is set constant. From the unit 12, the signal corresponding to the specified flow rate of each intermediate sludge enters the regulator 13.

The instantaneous flow rate signal of each intermediate sludge from electromagnetic flow meters 7.8 is fed to the secondary device 14, amplified by the device amplifier and through the differential transformer sensor (not shown) is fed to the regulator 13.

The received measurement signal in controller 13 is compared with the required ratio defined by setter 12, and the resulting signal from controller 13 passes through an adjustment mode selector 15, amplified by a magnetic amplifier 16 and switches on the actuator electric motor 17. Motion from the crank of the actuator is transmitted by mechanical transmission backstage control valves 9,10. The position of the crank is indicated by a remote pointer 18 which is mounted on the control panel of the device 11. The shutters 9,10 change the flow area until the error signal equals zero.

At the same time, the level of sludge in pools 1, 2 is measured and the filling of the specified pools with intermediate sludge is regulated so that their level is within h where h is the maximum permissible level determined by the tank capacity

 Thus, there is constant pressure at the inlet of the pump 5, which eliminates cavitation phenomena and ensures the normal operation of the pump, effective averaging of the compositions of intermediate sludges.

Claims (2)

1. Nogbegt V. Description of the cement plant in Saint Laurence in Canada. Rock products, 1955, 8, p. 82 2.Belgian plant introduces discontinuous slurry preparation 1969, 7, p.87Tprotiotype). products.