SU730670A1 - Automaric naphthalene fraction quality control system - Google Patents

Description

sensor 1 of the temperature of the liquid phase on one of the underlying plates, for example on a 10-plate, connected to the input of the temperature recorder 2, which is an electronic automatic potentiometer, connected to the output of the current parameter-PI of the semi-permanently operating regulator 3.

A naphthalene content sensor 4 is connected to a control unit 5, the pneumatic output of which is connected to the input of a secondary pneumatic device 6 that registers the content of naphthalene.

The output of the device 6 for recording the content of naphthalene and the manual setting device 7 is connected respectively to the inputs (chambers) of the parameter value of the previous cycle Pa and the setting of the PF of the semi-permanently operating regulator 3, and its output PROV is connected to the control valve 8.

A continuous pneumatic signal PI from an automatic potentiometer 2, corresponding to the temperature of the liquid phase on one of the underlying plates, in particular on the 10th plate measured by sensor 1, enters the first chamber (the current value of the parameter) of the special regulator 3. From the sensor the crystallization temperature of the naphthalene fraction is given a signal Pa, proportional to the percentage of naphthalene contained in it, which was converted in unit 5 and in the secondary device 6 to pneumatic. The signal passes to the second chamber (the value of the parameter of the previous cycle). Into the chamber (task) the pneumatic output of the relay protection from the manual setter of the secondary device 6 is supplied, which corresponds to the specified value of the naphthalene content in the fraction.

The clock commands for resetting Ki and testing the oscillating action / Ca are received in controller 3 from control unit 5, in which there is a pneumatic command device (not shown in Fig. 1) that matches sensor 1 and controller 3 cycles. 3, a comparison is made of the parameters of the temperature of the liquid phase on the 10th plate PI (current value) and the naphthalea content in the PS fraction (the previous value) with the specification of the RE. If the value of the parameter Pa and the previous cycle is removed from the preset value of the RE, regulator 3 takes effect. Its output signal, VOLUME, varies in accordance with the PI regulation rule and acts on the control valve 8 installed on the naphthalic fraction sampling line. Its effect continues until the value of the parameter PZ of the previous cycle begins to approach the specified value of the PZ, after which the controller 3 stops its operation and its output signal remains at the same level. At this time, the output sigal of the regulator does not depend on the parameter of the current temperature of the liquid phase of the 10th plate PI. And then, when the parameter of the previous cycle Pa (content of afthalin in the fraction) starts again to move away from the task of the PZ, the controller starts to act. During the whole period of operation, the output sigal of the controller depends on the value of the parameters of the current

the values of PI and the previous Pa cycles, and the interval between cycles, the output of the controller depends only on the strength of the Pb parameter of the liquid phase of the 10th plate and is formed in the controller on

basis of the law of PI-regulation.

Being a continuous signal and an indirect measure of the quality of the naphthalene fraction, the terature of the liquid phase of the 10th plate has the best diamy

Characteristics due to shorter minning times and a transition process of about 70 min. The transport time of the retransmission through this channel is practically zero.

Claims (2)

1. Livshchits B. Ya. And others. Automation of coal tar processing. M., Metallurgizdat, 1973. 2. USSR author's certificate number 372569, cl. C 07C 15/24, 1973 (prototype).  g tu ////////// l / f u ////////////