SU1483181A1 - Device for automatic control of heat duty of tube furnace - Google Patents

Abstract

Invention m. B. used in the refining, petrochemical and gas processing industries. The purpose of the invention is to improve the accuracy of the regulation mode of the furnace. The device contains a sensor 1 and a regulator 2 of the product temperature at the outlet of the furnace, valves 8 and 12 supplying the furnace with liquid and gaseous fuels, respectively. The device further comprises a sensor 10 and a temperature controller 11 at the furnace pass sequentially connected, an adder 9, pressure sensors 5 and 7 connected in series and pressure regulators 4 and 6 of a liquid gaseous fuel and a comparison unit 3, the output of which is connected to valve 8 for supplying liquid fuel , and the inputs are connected to the outputs of the pressure regulators 4 and 6. The outlet of the temperature regulator 11 at the furnace pass is connected to the gas fuel supply valve 12, and its input through the adder 9 is connected to the controller 2 of the product temperature at the furnace exit. The design of the device allows a more complete use of gas fuel and control of the thermal mode of the furnace, depending on the quality of the products in the apparatus. 1 il.

Description

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The invention relates to automatic regulation by hard furnaces and can be used in the oil refining, non-chemical and gas distillation industries.

The aim of the invention is to improve the accuracy of the adsor pel.

The drawing shows the basic scheme of the device in question.

The device contains a temperature sensor 1 at the outlet of the product from the furnace, connected to the temperature regulator 2 15, the comparison unit J, one input of which is connected through the pressure regulator to the pressure sensor 5 of the gas fuel, the second input is connected through the pressure regulator 6 with a pressure sensor of liquid fuel pressure 20, and an output with a liquid fuel supply valve 8, an adder 9, a temperature sensor 10 at the furnace pass connected to a first input of a temperature controller 11, the second input of which is connected to an output adder 9, and the output is with valve 12 on gaseous fuel. The first input of the adder 9 is connected to the output of the regulator 2, 30 and the two inputs of the adder 9 are connected to the regulators determining the quality of the product in the device.

The device works as follows.35

When the heating condition of the product changes, for example, when the composition of the fuel gas changes, the air excess factor and another, the output signal of the temperature sensor 10 on the furnace pass, connected with its output to the input of the temperature regulator 11, increases. valve 12,

will reduce (magnify) the supply of gaseous fuel to the furnace, compensate for the mismatch of the input signal of the temperature sensor 10 with the setting value of the temperature controller 11, determined by the output of the adder 9 connected by the first input to the output of the temperature regulator, and the second and third inputs - with regulators characterizing the quality of the products in the apparatus, for example, temperature and 55 shares of the distillate, the consumption of gepla. At the same time, RSLI's energy and potential possibilities of topping toppings allow compensating for

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temperature, as can be judged by the magnitude of the pressure of gauge fuel, regulators 6 and 4 are in equilibrium. By reducing the potential energy potential of the I fuel, the output signal of the pressure sensor 5 decreases accordingly, which will lead to a decrease (increase) in the output signal of the pressure regulator 4, which will decrease Increase the output signal to the second input of the reference unit 3, to the first input of which the output is connected a pressure regulator 6 connected by its inlet to a sensor 7 of the pressure of the liquid fuel at the inlet to the furnace.

In block 3, the energy potential of gas and liquid fuels is compared. The output signal of the comparison unit 3, acting on the valve 8, will increase the flow of liquid fuel to the furnace.

When the potential of a gas fuel is increased (its pressure is increased), the operation of the device is inversely described, whereby it is possible to save liquid fuel by more fully using gas fuel.

Using the adder 9, the thermal conditions in the furnace are controlled depending on the quality of the products in the apparatus, for example, the fraction of the product distillate and the temperature of the consumer, conventionally shown in the drawing, the assignments from the quality regulators.

Claims (1)

Invention Formula A device for automatically controlling the thermal condition of a tubular furnace, comprising a sensor and a product temperature controller at the furnace outlet, valves for supplying gaseous and liquid fuels to the furnace, characterized in that, in order to increase the control accuracy, the device further comprises a series-connected sensor and a TeMnepaTvpbi controller on the furnace pass, an adder, pressure sensors connected in series and pressure regulators of liquid and i-type fuel, and a comparator unit whose output is connected to the terminal block Lchi of liquid fuel, i enter through IK to supply to the outputs of the regulators / lunumin, intern31483IY4 The temperature controller set-up switch is connected to the low frequency of the furnace and is connected to supply the ropv product temperature H.I gaseous fuel output, and “.to the furnace inlet.