SU1510855A1 - Method of automatic control of the process of separating petroleum - Google Patents

Abstract

The invention relates to methods for the automatic control of the process of oil separation and can be used in the oil refining industry. The application of the invention will improve the clarity of separation of the mixture in a vacuum column, reduce coking and reduce the likelihood of burnout in the furnace tubes. Fuel oil from the bottom of distillation column 1 passes through pump 2, furnace 3 and enters the vacuum column 4. Regulator 10 changes the position of the control valve 9 located on the fuel oil additional flow pipeline (from fuel tanks) depending on the output signal of the flow sensor 5 with correction by the signal from the quality analyzer 11 of stripped oil supplied to the inlet of the distillation column 1. 1 sludge.

Description

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The invention relates to methods for the automatic control of the process of oil separation and can be used in the oil refining industry.

The purpose of the invention is to increase the clarity of separation of the mixture in a vacuum column, reduce coking and reduce the likelihood of burnout in the furnace tubes.

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

The method for automatically controlling the oil separation process is as follows.

The stripped oil enters distillation column 1, where it is divided into a number of fractions (gasoline, kerosene, diesel fuel, fuel oil). The main flow of fuel oil from the bottom of the distillation column 1 through the pump 2 is directed through the furnace 3 into the vacuum column 4. The signal from the flow sensor 5 is fed to the flow regulator 6, which acts on the valve 7, the correction for the flow rate is inputted from the level sensor 8 installed at the bottom of the distillation column 1. The supply of additional fuel oil from the fuel tanks to the pump 2 is controlled by valve 9, which is affected by the output signal of the regulator 10 connected to the flow sensor 5. A correction signal to regulator 10 is inputted from analyzer 11 of stripped oil quality.

When reducing the consumption of raw materials supplied to the vacuum column 4 below the permissible rate, the signal from the flow sensor 5 is fed to the regulator 10, the output control signal of which acts on the regulating valve 9. As a result, the flow of additional fuel oil to the pump 2 is increased. steady-state control of the flow rate of fuel oil in the vacuum column 4 to receive the pump 2 through the control valve 9 receives a certain amount of additional flow of fuel oil, which makes it possible to maintain a level in part of the distillation column 1 constant. In this case, the level correction signal in distillation column 1 is absent.

If there is a disturbance in the quality of the oil detected by the analyzer 11 of the quality of the stripped oil, for example, a density meter, the latter produces a correction signal to the regulator 10. The regulator 10 changes the position of the regulating valve 9 so as to compensate for the disturbance, i.e. increase the flow rate of fuel oil while reducing the density of the stripped oil; or decrease the flow rate with increasing density. This ensures the stabilization of the consumption of fuel oil in the furnace 3 and in the vacuum column 4.

Claims (1)

Invention Formula A method for automatically controlling the oil separation process, including controlling the flow rate of fuel oil to a furnace depending on the level of fuel oil in the lower part of the distillation column and measuring the consumption of fuel oil in a furnace, characterized in that, in order to increase the clarity of separation of the mixture in a vacuum column, reduce coking and reduce the furnace tubes burnout, additionally, the supply of fuel oil to the main fuel oil stream from the distillation column is carried out and the flow of the additional fuel oil flow is controlled depending on fuel oil consumption in the furnace with the correction of the quality of the stripped oil.