SU981342A1 - Device for automatically controlling bitumen oxidation - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CONTROL OF BITUMEN OXIDATION PROCESS

Claims (2)

This invention relates to devices for the automatic control of a bitumen continuous oxidation process and may. be used in the refining industry and the building materials industry. A device is known for automatically controlling the quality of oil & 1 volumes, containing a summation unit, to the first input of which are connected a sequentially connected software block and a raw material quality sensor, 0 to the second — a serially connected ready bitumen regulator and a high quality finished bitumen analyzer The output of the summation block is connected to one of the inputs of the air regulator, to the second input of which the air flow sensor is connected, and to the output actuator C1. J. The closest technical essence to the invention is a device for automatic control of processes, comprising a circuit for controlling the consumption of raw materials, consisting of a flow meter for the raw materials, a regulator of the consumption of raw materials, an analyzer for the quality of the finished bitumen, an actuator, a mechanism, a control loop recirculation consumption, consisting of a feedstock quality analyzer, finished bitumen quality analyzer, a computing device, a recirculation flow meter, a recirculation flow controller the actuator and the air flow control loop consisting of computing devices; a, air flow meter, pressure sensor, Boajnyxa flow regulator and actuator t2J. However, these devices do not provide for controlling the oxidation process of the low oxidation temperature, accompanied by a significant amount of heat of reaction. The purpose of the invention is to provide optimization of the deep oxidation process. The goal is achieved by the fact that the device additionally contains a circuit for regulating the supply of water to the gas zone of the oxidation column, co. consisting of temperature sensors in the gas zone c of the oxidation zone, water flow controller, temperature setter, advance unit and executive mechanism, with the first and second inputs of the water flow regulator connected to the temperature setpoint and temperature sensor outputs respectively The temperature sensor in the oxidation zone is connected to the third input of the flow regulator p through the precursor block, and an actuator is connected to the output. H0 in the drawing is a diagram of a device for automatically controlling the process of bitumen oxidation. In the process of deep oxidation, when building bitumen is obtained, gas is sprayed into the zone in spray form to remove the heat of the oxidation reaction. Odd However, water supply to the gas zone is approximate, which affects the quality of the finished product and can lead to emergency situations. A device for automatic control of the bitumen oxidation process contains control loops for the technological flow rates of non-oxidized bitumen, air and water. The raw material flow control loop consists of a flow sensor 1 | the flow controller 2 of the raw material of the analyzer 3 of the quality of the finished bitumen and the actuator 4. The air flow control loop has an air flow sensor 5, a water dispenser 6, a pressure sensor 7, an air flow regulator 8 and an executive mechanism 9. The water flow control loop The gas zone of the oxidation column 10 contains a temperature sensor 11 in the gas zone, a temperature sensor 12 in the oxidation zone, a preliminary unit 13, a water flow rate regulator 14, a temperature setter 15, an actuator 16. The first and second inputs The water flow controller 14 is connected respectively to the temperature setters 15 and the temperature sensor 11 in the gas zone, respectively. The third input is connected via a pre-swap 13 unit with a temperature sensor 12 in the oxidation zone. The output of the flow regulator 14 is connected to the actuator 16. The device operates in the following manner. The flow rate of the feedstock to the oxidizing column 1O is stabilized by means of the flow controller cf, which receives signals from the analyzer 3 of the quality of the finished bitumen and feedstock sensor 1 and acts on the actuator 4. In accordance with the pressure in the oxidizing column -10 measured by By means of pressure 7, the output of which is connected to the computing device 6, the latter gives the task to the air flow controller 8, which changes the air supply to the column 10, whose flow rate is 1 meter, through the actuator 9. 1 with a sensor 5. During the oxidation of bitumen, the temperature increases excessively. And the smallest temperature is around the mother liquor,. through which the air flows into the bitumen, and the largest - in the average mass of the bitumen. The setting device 15 is used to set the contour for regulating the supply of water to the gas zone of the oxidation column to automatically maintain the temperature of the bitumen. Simultaneously with the signal coming from. temperature control knob 15 to one of the inputs of water flow regulator 14; to the other input of the latter, a signal is sent from temperature sensor 11 about the current temperature in the gas zone of the oxidation column. Upon reaching a certain temperature, the regulator 14 gives a signal to turn on the actuator 16 and water is sprayed into the gas space of the oxidizing column 10. The bitumen temperature jump in the area of the mother liquor receives the corresponding signal from the temperature sensor at the input of the precursor block 13. 12 oxidation zones. The precursor 13 introduces the B regulator 14 to influence the rate of deviation of the temperature of the bitumen in the oxidation zone from a predetermined value. Thus, the signal from the temperature sensor in the oxidation zone is ahead of the temperature rise in the mass of bitumen from the mother liquor to the upper layers, which makes it possible to prevent a critical situation in advance. After summing the signals from the temperature setter 15 and the sensors 11 and 12, the controller 14 commands the actuator 16 to change the water supply to the gas zone. This device provides optimization of the deep oxidation mode, eliminates emergency situations, increases the efficiency of the oxidizing plant. The expected economic effect from the implementation of the invention is 15 thousand rubles. Claims for the automatic control of the oxidation process of bitumen, comprising a raw material consumption circuit consisting of a sensor connected in series and a raw material consumption controller, a finished bitumen quality analyzer and an actuator, and an air consumption control loop composed of air, a computing device, a pressure sensor, an air flow controller, and an executing mechanism, characterized in that, in order to 9S 42 to ensure an optimization deep oxidation, it additionally contains a flow control loop, which leads to the gas zone of the oxidation column, consisting of I of temperature sensors in the first zone and oxidation zone, a water flow regulator, a temperature setpoint, a preliminary actuator unit, the first and second the inputs of the water flow regulator are connected respectively to the outputs of the temperature setter and the temperature sensor in the gas zone; to the third input of the flow regulator, the temperature sensor in the zone oEms is connected through the preprocessing unit Lev, and to the exit - the executive mechanism of this circuit. Sources of information taken into account in the examination 1. The author's certificate GCCP № 285815, cl. С 1О С 3 / О4, 1969 / 2. USSR author's certificate No. 472144, class, С Ю С 3 / О4, 1973.