SU769569A1 - Device for simulating dynamics of distribution by fractions of composition of substance components - Google Patents

Description

The multiplications, the outputs of the multiplying units by a constant factor of all channels are connected to the inputs of the registration unit, the information inputs of the keys of all channels are combined and are the input of the flow rate of the resulting product of the device, the inputs of the threshold elements of all channels are the device quality setting.

The drawing shows a diagram of the device.

It contains threshold elements 1–3, keys 4–6, integrators 7–9, blocks 10–12 multiplied by a constant coefficient, blocks 13–15 tree and block 16 of registration.

The device consists of a series of parallel channels, each of which traces the fate of a separate faction. With an increase in the number of channels, the accuracy of modeling the dynamics of the fractional composition increases.

Each threshold element operates in such a way that when the quality parameter changes to the input of the quality parameter setting, in a dedicated area, the output of the threshold element has a signal that opens the key, i.e., the threshold elements are set to transmit a signal of a certain amplitude range.

The outputs of the threshold elements 1-3 are connected to the command inputs of the keys 4-6, the second inputs of which are connected to the input 17 of the flow rate setting of the resulting GI product. The outputs of the keys 4-6 are connected to the positive inputs and integrators 7-9.

The outputs of the integrators are connected to the inputs of multipliers with a constant coefficient of 10–12. The outputs of these blocks are connected to the first inputs of the multiplication blocks 13-15, the second inputs of which are connected to the input 18 of the task of the transport stream GZ, and the outputs to the negative inputs of the integrators 7-9. The outputs of blocks 10-12 connected to the block 16 of the registration.

Thus, the inputs 17, 18, 19 of the device are supplied with a voltage proportional to the value of the quality parameter P, the performance GI and the transport stream G2, the output voltages ken, proportional to the fractional composition, are recorded on block 16.

The device works as follows.

Suppose that it is necessary to remove the dynamic characteristics of the channel, the current value of the quality parameter P, and the fractional composition of the product.

We have three input signals.

The input 19 is supplied with a voltage proportional to the value of the quality parameter P. The voltage from the input 17, proportional to the performance, is supplied to

keys 4-6 and in the presence of a signal at the control input comes on.

A voltage proportional to the value of the transport stream 0 is applied to the blocks 10-12.

Let the quality parameter P's voltage fall within the range of one of the threshold elements 1-3, for example 1, at the output of which a signal appears that opens the corresponding key 4, while the voltage is not removed from the other switching elements.

So, the search from the input 17 passes through the opened key 4, gets to the positive input of the integrator 7 of this channel. The voltage at its output is increased by block 10, simulating an increase in concentration.

The voltage from block 10 goes to block 13, where the voltage from input 18 is applied. The output voltage from block 13 is supplied to the minus input of integrator 7 and recorded by block 16.

When the value of the quality parameter P varies, the voltage in this channel drops, which means the exhaustion of this fraction, while the parallel identical channel starts to work, i.e.

By registering the voltage at block 16, it is possible to trace changes in the concentration of all product fractions using the device, which provides an increase in the accuracy of the simulation.

The proposed device can be used to simulate the fractional composition of polyisoprene obtained in the polymerization process.

Thus, the device allows to increase the accuracy of modeling, taking into account the dynamics of the fractional composition.

Claims (2)

1. USSR Author's Certificate No. 402884, cl. G 06G 7/48, 1973. 2. USSR author's certificate for application No. 1866677 / 18-24, cl. G 06G 7/75 1976 (prototype). nineteen sixteen