SU860798A1 - Fractionation column operation mode automatic control method - Google Patents

Description

one

This invention relates to methods for automatically controlling the withdrawal of the side product and the distillate product of a fractionation column. It can be used in the refining and petrochemical industries, for example in the production of butane to maximize the extraction of the target component from the feed in the side stream of the fractional column.

There is a known method for automatically controlling the operation mode of a fractional column by varying the amount of fraction withdrawal by the temperature difference on the side-by-side selection plate and the top of column 1.

The closest in technical essence to the invention is a method of automatically controlling the operation mode of a fractional column by adjusting the selection of side stream, irrigation and residue in the fractional column, taking into account the feed consumption, the concentration of components of the feedstock and the required concentration of components in each of the three fractions and selection of distillate product 2.

The known method, which provides the side fraction of the required quality with disturbances in consumption and composition of the raw material, does not allow to maximize the performance of the fractional column in the target product.

The aim of the invention is to maximize the extraction of the target component from the pit in the side stream of the fractionation column.

This goal is achieved by the fact that the side stream consumption is additionally regulated depending on the temperature difference on the side stream and top of the selection plate, and the distillate product is regulated depending on the potential content of the light phase in the feed.

15 The drawing shows the scheme of the method implementation.

The circuit contains a power consumption sensor 1, a power composition analyzer 2, a compensator 3 power supply disturbances,

20 computing devices 4 and 5, adder 6, sensors 7, 8 for side-flow and distillate consumption, respectively, actuators 9, 10, controllers 11, 12 for side-flow rates and distillate

25 respectively.

The method is carried out as follows.

The side stream and distillate are taken from the fractional column with a correction for flow rate and feed composition, and the correction signals for flow and feed composition are formed in the computing device 4, to the input of which a signal is sent from the FP feed flow sensor 1 side power consumption, as well as signals from the drivers, corresponding to the concentration of the light phase in the power Z and the concentration of the target component in the power Zq.

The correction signal for the oil flow regulator 12 is formed in the computing device 4 as Fp-Z. Thus, distillate selection is controlled depending on the potential content of the light phase in the feed.

The correction signal for the side-stream consumption regulator 11 is obtained at the output of the adder 6, to the input of which a signal is output from the computing device 4, corresponding to the Fp-Zj value, and a signal generated in the computing device 5 that takes into account the current temperatures of the top of the column ti and selection plate side shoulder strap t2.

The command signals from the output of the regulators 11, 12 are fed to the corresponding actuators 9, 10 installed on the side stream and distillate selection lines.

In computing device 5, the value of

8 -A /, where M t - t

  .

Here, 1 and / 2 are the temperatures of the top of the column and on the side cut plate, respectively, a / G and 2 ° are the indicated temperatures for the mode corresponding to the maximum side discharge at the nominal flow and feed composition values.

Claims (2)

1. The patent of Germany No. 1803991, cl. B 01D 3/42, 1978. 2. US patent No. 3428528, cl. 203-1, 1968. -®