RU2531299C1 - Method to prepare fuel oil for burning - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: in the method to prepare fuel oil for burning from the total volume of the main flow of fuel oil they take a volume of side flow of fuel oil equal to 1.5 - 2% of the volume of the main flow of fuel oil. The main flow of fuel oil is sent into the line of the side flow of fuel oil. Heating of the fuel oil flow, mixing of an additive and fuel oil is carried out in the line of the side flow of fuel oil, in parallel connected to the line of the main flow of fuel oil. Mixing of the volume of the side flow of fuel oil and the additive is carried out without participation of movable mechanical facilities by means of a mixer made in the form of a device for static mixing of fuel oil and additive. The additive is supplied into the line of the side flow of fuel oil to the process of static mixing of fuel oil and the additive.

EFFECT: simplified process circuit with preservation of high operational characteristics of fuel oil due to high homogenisation of the introduced additive and fuel oil by means of intensive mixing and automation of preparation of homogeneous mixture of fuel oil and additive, efficient preparation and burning of liquid fuel with release of smaller quantity of toxic substances, increased reliability, cost effectiveness and environmental safety of boiler plants.

4 cl, 1 dwg

Description

The invention relates to a power system and can be used to improve the physicochemical and operational characteristics of heating oil at thermal power plants, boiler houses in industrial enterprises, boiler houses in the agricultural sector, and housing and communal services.

In connection with an increase in the depth of oil refining, deterioration in the quality of boiler fuel is observed, which negatively affects the storage, preparation, burning of fuel oil, increases the amount of harmful products emitted into the atmosphere, increases deposits on the surfaces of heat power equipment, increases the costs of own needs, reduces the efficiency of the steam generator, therefore , reduces the efficiency of boiler houses and thermal power plants in general. The introduction of special substances-multifunctional additives helps to improve the quality of heating oil, improve its physico-chemical and operational properties.

A known method of preparing heating oil for burning, including draining fuel oil from tanks to receiving tanks, cycling pumping fuel oil through heaters and supplying fuel oil for combustion to boiler units (G.S. Stepanov and others. Rational use of fuel oil in steam boilers of food industry enterprises. Easy and food industry, M., 1981, p.127).

The disadvantage of this method is that the high viscosity of the burned fuel oil leads to inefficient spraying, reducing the efficiency of boiler plants.

The closest technical solution to the present invention is a method of preparing heating oil for burning and a device for its implementation (RF patent No. 2143312, IPC B01F 3/08, 12/27/1999).

The method includes emulsification of a mixture of fuel oil with water and heating, while pyrolysis resin is introduced into the fuel composition before or during emulsification in an amount of 2-10 wt.%, And emulsification is carried out by hydrodynamic cavitation treatment under certain conditions. The device comprises a heater, cavitation devices, a recirculation line. The heater is installed in the combustion fuel supply line.

The main disadvantage of this method is the complexity of the technological scheme for the preparation of heating oil for burning due to the presence of four hydrodynamic cavitation devices.

The objective of the present invention is to simplify the technological scheme for the preparation of heating oil for burning.

The technical result is achieved by the fact that in the method of preparing heating oil for combustion, including the preparation of an additive with mechanical and circulating stirring, measuring the consumption of the additive, measuring the consumption of fuel oil in the line of the main fuel oil stream, heating the fuel oil stream, feeding the additive into fuel oil, mixing the additive and fuel oil, the supply of a mixture of fuel oil and additives in the line of the main stream of fuel oil, according to the present invention, from the total volume of the main stream of fuel oil, the volume of the side stream of fuel oil equal to 1.5-2% of the volume a new stream of fuel oil, which is directed to the side stream of fuel oil, parallel to the line of the main stream of fuel oil, while heating the stream of fuel oil, mixing the additive and fuel oil is carried out in the side stream line of fuel oil, and mixing the volume of the side stream of fuel oil and additives is carried out without the participation of mobile mechanical devices through a mixer, made in the form of a device for static mixing of fuel oil and additives, and the additive is fed into the side stream line of fuel oil before the process of static mixing of fuel oil and additives.

As an additive, the demulsifier “Diproxamine-157” (TU 6-14-614-76) is used, which is introduced into the volume of the side stream of fuel oil before the process of static mixing of fuel oil and the additive in an amount of 0.15-0.25 wt.%.

During the preparation of the additive, it is heated to a temperature of 20-50 ° C, and heating of the side stream of fuel oil is carried out to a temperature of 80-90 ° C.

At the same time, the preparation of a homogeneous mixture of fuel oil and additive is automated, and it is added to fuel oil by means of a programming logic controller that monitors the consumption of the additive, the level of additive and the consumption of fuel oil.

The invention is illustrated in the drawing, which shows a process diagram of a system that implements the proposed method for preparing heating oil for burning.

The numbers in the drawing indicate:

1 - storage capacity and preparation of additives;

2 - additive circulation line;

3 - circulation pump;

4 - line feed additive in fuel oil;

5 - line of the main stream of fuel oil;

6 - fuel oil flow meter;

7 - fuel oil transfer pump;

8 - fuel oil heater;

9 - fuel oil temperature sensor;

10 - mixer;

11 - additive level sensor;

12 - mixer;

13 - exhaust valve;

14 - additive temperature sensor;

15 - filter;

16 - additive metering pump;

17 - additive flow meter;

18 - check valve;

19 - line side stream of fuel oil;

20 - programming logic controller;

21 - electric generators.

A system that implements a method for preparing heating oil for combustion contains technologically related containers for storage and preparation of an additive, an additive circulation line 2 with a circulation pump 3, an additive supply line for fuel oil 4, a main fuel oil supply line 5 with a fuel oil flowmeter 6, and fuel oil transfer pump 7, fuel oil heater 8 with temperature sensor 9 and mixer 10.

The storage and preparation capacity of the additive 1 has a level sensor 11, an agitator 12, an exhaust valve 13, and an additive temperature sensor 14.

The fuel oil additive supply line 4 includes a filter 15 connected in series, an additive metering pump 16, an additive flow meter 17, and a check valve 18.

The system that implements the proposed method of preparing fuel oil for burning is equipped with a line 19 of the side stream of fuel oil connected to the line 4 for supplying the additive to the fuel oil and connected in parallel to line 5 of the main stream of fuel oil, as well as a programming logic controller 20.

The programming logic controller 20 is connected to the flow meter 1 7 additives, the sensor 11 level additives and the flow meter 6 fuel oil.

The operating principle of the programming logic controller 20 is based on the conversion of electrical signals of voltage, DC current and active resistance of the primary measuring transducers (sensors) into unified DC or voltage signals, followed by analog-to-digital conversion and transmission of measurement information to a personal computer.

Line 19 of the side stream of fuel oil includes serially connected the specified pump 7 transfer fuel oil, heater 8 fuel oil with a temperature sensor 9 and a mixer 10.

The mixer 10 is made in the form of a device for static mixing of fuel oil and additives (static mixer).

Preparation of a homogeneous mixture of fuel oil and additives, carried out in the mixer 10 (static mixer), which is a continuous mixing device, does not require additional energy consumption, because It has no moving parts, which increases its reliability.

A method of preparing heating oil for combustion includes preparing an additive with mechanical and circulating stirring, measuring the consumption of the additive, measuring the consumption of fuel oil in line 5 of the main fuel oil stream, heating the fuel oil stream, feeding the additive into fuel oil, mixing the additive and fuel oil, feeding the mixture of fuel oil and additive in line 5 main fuel oil flow.

The difference of the proposed method of preparing heating oil for combustion is that from the total volume of the main fuel oil stream, the volume of the side stream of fuel oil equal to 1.5% -2% of the volume of the main stream of fuel oil is selected, which is sent to line 4 of the side stream of fuel oil, connected in parallel to the line 5 of the main stream of fuel oil, while heating the stream of fuel oil, mixing the additive and fuel oil is carried out in line 4 of the side stream of fuel oil, and the mixing of the volume of the side stream of fuel oil and additives is carried out without moving mechanically devices by the mixer 10 in a static mixing device and fuel oil additives, and the additive is fed in line 4 a side stream of fuel oil to the process, the static mixing fuel oil and additives.

As an additive, the demulsifier “Diproxamine-157” according to TU 6-14-614-76 is used, which is introduced into the volume of the side stream of fuel oil before the process of static mixing of fuel oil and the additive in an amount of 0.15-0.25 wt.%.

During the preparation of the additive, it is heated to a temperature of 20-50 ° C, and heating of the side stream of fuel oil is carried out to a temperature of 80-90 ° C.

At the same time, they automate the preparation of a homogeneous mixture of fuel oil and additive and add it to fuel oil by means of a programming logic controller that monitors the consumption of the additive, the level of additive and the consumption of fuel oil.

An example of a specific implementation.

Unloading additives, which use the demulsifier "Diproxamine-157" according to TU 6-14-614-76, and its preparation is often combined in one process.

The additive is prepared in a container 1 equipped with a sensor 14 measuring the temperature of the additive. A change in the temperature environment leads to a change in the fluid pressure inside the sensor, which in turn closes or opens the contacts of the device through a system of levers. The heating of the additive in the tank 1 is allowed to a temperature not lower than 20 ° C and not higher than 50 ° C.

The storage and preparation capacity of the additive 1 is equipped with a mixing device, which is used as a mechanical stirrer 12. Circulation mixing is carried out by forced circulation of the additive along line 2 with a circulation pump 3. Circulation mixing provides turbulence and promotes efficient mass transfer.

The storage and preparation capacity 1 of the additive has a level sensor 11 with which the programming logic controller 20 monitors the level of the additive in the tank. The control of the additive level in the tank 1 is based on the conversion of the change in electrical resistance between the wall of the tank and the electrode of the level sensor 11 into an electrical signal. When immersed in a controlled environment of the sensor electrode, this resistance decreases and the relay of the corresponding channel is activated, the LED lights up. If there is no medium, the resistance increases, the relay is de-energized, the LED goes out.

In case of overfilling of the tank 1, the outlet valve 13 is automatically opened and the excess additive is discharged.

From the tank 1, the liquid additive along the line 4 for supplying the additive to the fuel oil passes through the filter 15, which is intended for its purification from mechanical impurities. Then the cleaned additive is pumped by the metering pump 16 along line 4 to line 19 of the side stream of fuel oil.

On the line 4 for supplying the additive to the fuel oil, an additive flow meter 17 is installed. According to its performance, the controller 20 monitors the consumption of the additive before feeding it into the fuel oil line 19 of the side stream of fuel oil. On the line 4 for supplying the additive to the fuel oil, a check valve 18 is also installed, which prevents the reverse flow of the additive on line 4.

On the main fuel oil line of line 5 of the main fuel oil stream, a fuel oil flow meter 6 is installed.

From the total volume of the main stream of fuel oil, the volume of the side stream of fuel oil is selected, equal to 1.5% - 2% of the volume of the main stream of fuel oil, which is sent along line 19 for mixing with the additive. This side stream of fuel oil is pumped by pump 7.

Before adding the additive to the side stream of fuel oil, the latter, in turn, passes through a heater 8, which is designed to heat the fuel oil to a temperature of 80-90 ° C and thereby to prevent its solidification, as well as to provide the necessary viscosity values.

After passing the side stream of fuel oil through the heater, the temperature of the fuel oil (80-90 ° C) is measured with a sensor 9. Then, the liquid additive along the line 4 for supplying the additive to fuel oil is added to the fuel oil line of line 19 of the side stream of fuel oil (from the calculation of 0.15-0.25 wt.%).

Intensive mixing of the side stream of fuel oil and additives is carried out by means of a mixer 10, made in the form of a device for static mixing of fuel oil and additives (static mixer).

The additive is fed to line 4 of the side stream of fuel oil before the process of static mixing of fuel oil and additives.

Mixing fuel oil and additives in a static mixer is carried out without the participation of movable mechanical devices. Fuel oil and additive are mixed only due to the flow energy with the participation of motionlessly fixed mixing elements, contributing to the continuous separation and redistribution of the total flow over the cross section of the mixing channel.

Next, a mixture of fuel oil and additives is fed into the main fuel oil line of line 5 of the main fuel oil stream, from where a suspension of fuel oil with an additive is fed for combustion in a boiler plant.

Thus, the use of the present invention will allow, in comparison with the prototype, to simplify the process flow diagram of the preparation of heating oil for burning by eliminating four hydrodynamic cavitation devices. At the same time, high operational characteristics of heating oil remain due to the high homogenization of the introduced additive and fuel oil by intensive mixing of the components, and the automation of the preparation of a homogeneous mixture of fuel oil and additive, and its addition to fuel oil, which will ensure the effective preparation and burning of liquid fuel with the release of less toxic substances , will increase the reliability, efficiency and environmental safety of boiler plants.

High homogenization of the introduced additive and fuel oil by intensive mixing of the components is achieved without the participation of movable mechanical devices by means of a mixer made in the form of a device for static mixing of fuel oil and additive.

The effect of intensive mixing and interaction of the supplied substances is achieved through multiple division and directed swirling of the flow on the elements of the special nozzle fixed in the device during the movement of the flow inside the static mixer.

Automation of the preparation of a homogeneous mixture of fuel oil and additive and its addition to fuel oil is carried out by means of a programming logic controller that monitors the consumption of the additive, the level of additive and the consumption of fuel oil.

Claims (4)

1. A method of preparing heating oil for combustion, including the preparation of the additive by mechanical and circulating mixing, measuring the consumption of the additive, measuring the consumption of fuel oil in the line of the main fuel oil stream, heating the fuel oil stream, feeding the additive into fuel oil, mixing the additive and fuel oil, feeding the mixture of fuel oil and additive in the line of the main stream of fuel oil, characterized in that from the total volume of the main stream of fuel oil the volume of the side stream of fuel oil is selected, equal to 1.5% -2% of the volume of the main stream of fuel oil, which is sent to the line the bridging stream of fuel oil, while heating the stream of fuel oil, mixing the additive and fuel oil is carried out in the side stream of fuel oil, parallel to the line of the main stream of fuel oil, and mixing the volume of the side stream of fuel oil and additive is carried out without the participation of moving mechanical devices through a mixer made in the form of a device static mixing of fuel oil and additives, and the additive is fed into the side stream line of fuel oil before the process of static mixing of fuel oil and additives. 2. The method of preparing fuel oil for burning according to claim 1, characterized in that the demulsifier “Diproxamine-157” is used as an additive, which is introduced into the volume of the side stream of fuel oil before the process of static mixing of fuel oil and the additive in an amount of 0.15-0.25 wt.%. 3. The method of preparing fuel oil for burning according to claim 1 or 2, characterized in that during the preparation of the additive, it is heated to a temperature of 20-50 ° C, and the heating of the side stream of fuel oil is carried out to a temperature of 80-90 ° C. 4. The method of preparing fuel oil for burning according to claim 1 or 2, characterized in that they automate the preparation of a homogeneous mixture of fuel oil and additive and add it to fuel oil by means of a programming logic controller that monitors the consumption of the additive, the level of additive and the consumption of fuel oil.