KR101101188B1 - The Flash Point Control System - Google Patents

Abstract

The fuel oil flash point control device of the present invention, in the oil flash point control device for separating the mixed phase material of the distilled fuel oil, a separation tower having an inlet pipe and a discharge pipe, respectively, a cooling device surrounding the separation tower, and the separation A fuel oil flash point control device including a gas outlet formed in the tower and a drain hole formed in the separation tower, wherein the separation tower is divided into a cooling unit and a separation unit to separate the mixed phase material of the distilled fuel oil. In the separation part, two or more vertical separation plates with perforations are installed in the cooling unit of the separation tower, one or more horizontal separation plates with perforations are installed in the separation unit of the separation tower, and the heating coil is installed in the separation tower. The cooling unit is formed in the inner tube and the outer tube, the inner tube is distilled fuel oil flows in the outer tube, the coolant is circulated, the cooling device is the powder The upper and lower cooling devices are respectively configured to correspond to the cooling unit and the cooling unit, respectively, and the upper and lower cooling devices are configured as a condenser.

Accordingly, the present invention improves the efficiency of the emulsification process utilizing waste by simplifying the installation to include both the separation tower to improve the flash point of the fuel oil, the condenser for cooling and liquefying the fuel oil and the outlet for removing impurities contained in the fuel oil. At the same time, it offers the effect of dramatically improving the quality of fuel oil at a minimum cost.

Distillation, condensation, separation, flash point

Description

Fuel Oil Flash Point Control System {The Flash Point Control System}

The present invention relates to a fuel oil flash point control device, and more particularly to a fuel oil flash point control device that can effectively improve the flash point of the fuel oil and remove foreign substances.

In general, the most common of the separation of the liquid mixture is the most common separation by the difference between the distillation temperature and the boiling point. Distillation tower, fractionation tower and cooling tower of oil refinery system or petrochemical process are divided into different structures by process.

The most representative techniques for classifying the mixed phase (gas, liquid, solid matter) materials of fuel oil in the liquid mixture are atmospheric distillation and vacuum distillation. In the distillation process, a splitter is installed to separate the fuel oil according to the distillation temperature. The distillation is performed at atmospheric pressure by distillation at atmospheric pressure. The distillation is performed by artificially lowering the pressure to physically lower the boiling point. Distillation under reduced pressure.

In the distillation process, the fuel oil is changed into a gasified oil vapor, the oil vapor is separated in a specific type of separation column according to the vapor density, the separated oil vapor is introduced into a condenser (cooler) is cooled and liquefied. On the other hand, if the solid foreign matter contained in the cooling liquefied fuel oil is removed by a separate centrifuge or separate filter equipment.

Operation of the separation tower is an essential process for improving the flash point of fuel oil. If there is no fractionation tower, it is inconvenient to remove unnecessary components such as naphtha, gas oil, and impurities by re-distillation.

Therefore, the flash point is a measure of the ignition temperature of the fuel oil, and the lower the flash point, the easier the ignition at a lower temperature and the higher the ignition temperature. This is a very important item related to fire safety along with factors that determine the quality of fuel oil.

However, in the related art, as the fuel oil is continuously distilled according to the boiling temperature differential, the distillation occurs repeatedly to remove naphtha, gas, oil, and impurities, and at the same time, the process is complicated and enlarged.

In addition, conventionally, there has not been disclosed a device in which a fractionation tower for separating a fuel oil according to a distillation temperature to improve a flash point, a condenser for cooling and liquefying oil vapor, and a precipitation device for removing impurities are disclosed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned general problems, and an object of the present invention is to include a process of improving the flash point of fuel oil, a process of cooling and liquefying fuel oil, and a process of removing impurities contained in the fuel oil. The aim is to provide a fuel oil flash point control device that simplifies the plant, improves the efficiency of the emulsification process utilizing waste, and dramatically improves quality at minimal cost.

In addition, another object of the present invention is to provide a fuel oil flash point control device for efficiently removing the low boiling point material in the fuel oil to improve the flash point which is the fuel performance standard.

The fuel oil flash point control device of the present invention for achieving the above object, in the oil flash point control device for separating the mixed phase material of the distilled fuel oil, a separation tower each formed with an inlet pipe and a discharge pipe, the separation tower It includes a cooling device surrounding the, and the gas outlet formed in the separation tower and the drain hole formed in the separation tower, the separation tower is divided into a cooling unit and a separation unit,

In addition, it is preferable that two or more vertical separation plates having perforations are installed in the cooling unit of the separation tower.

In addition, it is preferable that one or more horizontal separation plates having perforations are installed in the separation part of the separation tower.

On the other hand, it is preferable that the heating coil is installed in the separation tower.

In addition, the cooling device is configured as an upper and lower cooling device so as to correspond to the separation unit and the cooling unit, respectively, and the upper and lower cooling device is preferably configured as a condenser.

According to the fuel oil flash point control device according to the present invention, waste is simplified by using a wastewater to separate the separation tower to improve the flash point of the fuel oil, a cooling device for cooling and liquefying the fuel oil, and an outlet for removing impurities contained in the fuel oil. It improves the efficiency of an emulsification process and at the same time provides a significant improvement in the quality of fuel oil.

In addition, it is effective to remove the low boiling point material in the fuel oil to improve the flash point which is the fuel performance standard.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a fuel oil flash point control apparatus according to the present invention, Figures 2 to 3 is a view showing a vertical separator and a horizontal separator of Figure 1, Figure 4 is a fuel oil flash point control of Figure 1 A diagram illustrating a configuration in which one or more devices are connected in series.

1 to 4, the fuel oil flash point control device (A) according to the present invention, the separation tower 100, the cooling device 200 surrounding the separation tower 100, and the separation tower It is composed of a gas outlet 101 formed at the top of the 100 and the drain hole 102 formed at the bottom of the separation tower (100).

First, the separation tower 100 is divided into upper and lower separation unit 110 and the cooling unit 120.

In addition, the separation tower 100 is formed with an inlet pipe 130 through which oil vapor of fuel oil is introduced, and a discharge pipe 140 through which condensation-cooled fuel oil is discharged into a liquid phase.

In addition, when the oil vapor introduced through the inlet pipe 130 has a fast inlet pressure and flow rate, the cooling efficiency is drastically reduced.

In order to prevent this, two or more vertical separation plates 300 formed with perforations 310 are installed in the cooling unit 120 of the separation tower 100 to reduce the flow pressure and speed of the oil vapor. At this time, the flow rate decreases to increase the retention time in the cooling unit 110 to promote the separation of the gas and light oil to the separation unit 110.

The outer wall of the cooling unit 120 has a double structure of the inner tube 121 and the outer tube 122, the inner tube 121 is the oil vapor of the distilled fuel oil is introduced and the outer tube 122 is configured to circulate the cooling water. .

The oil vapor of fuel oil is condensed-cooled by the dual structure of the cooling part 120 comprised in this way.

In addition, the more the vertical separation plate 300, the better the separation of gas and light oil contained in the oil vapor.

For example, as the number and area of oil vapor contacting the vertical separation plate 300 increases, the pressure and speed are significantly lowered, so that the boiling point of the oil is liquefied and the boiling point of the gas and the hard oil are separated from the upper part of the separation tower 100. It is moved to the unit (110).

Thereafter, the separated gas and the hard oil that are not condensed and cooled are discharged to the gas outlet 101 formed in the separation tower 100 and recovered separately.

In addition, the cooling liquefied oil vapor is to be liquefied and recovered through the discharge pipe 140.

On the other hand, even in such a liquefaction process, the lowering of the cooling efficiency and the separation due to lack of reflux ratio can also improve the separation cooling efficiency by continuously arranging the fuel oil flash point control device (A) as shown in FIG.

In addition, the vertical separator 300 may remove the solid impurities introduced into the separation tower (100).

For example, the solid impurities are composed of fine particles, and such solid impurity fine particles collide with the vertical separation plate 300 and are precipitated to the lower end of the cooling unit 120 of the separation tower 100. It is periodically discharged to the drain hole 102 formed at the bottom of the separation tower (100).

On the other hand, the separation unit 110 of the separation tower 100 is provided with one or more horizontal separation plate 400 formed with a perforation 410, the separation unit 110 by the horizontal separation plate 400 It has a multi-stage reflux structure, and the horizontal separator 400 may be filled with a neutralizing material for neutralizing the filler or hydrochloric acid to improve the reflux.

In addition, the separation coil 100 may be provided with a heating coil 500 to reheat the low temperature oil vapor to promote internal separation efficiency.

Meanwhile, the cooling device 200 includes upper and lower cooling devices 210 and 220 so as to correspond to the separating unit 110 and the cooling unit 120, respectively, and the upper and lower cooling devices 210 and 220 constitute condensers. Since the condenser is a known technique used in a general cooling cycle, detailed description thereof will be omitted.

The fuel oil flash point control device of the present invention as described above can overcome the degradation of the cooling efficiency and the separation by the lack of reflux ratio through two or more consecutive arrangements, and can further improve the separation cooling efficiency.

Hereinafter, the operation of the fuel oil flash point adjusting device A of the present invention will be described.

First, the pyrolysis fuel oil must maintain the flash point of pyrolysis oil of 30 ℃ or higher in order to meet the relevant standards (Ministry of Environment, Ministry of Commerce, Industry and Energy Quality Standard), and the flash point of the decompression oil must maintain the flash point of 40 ℃ or higher.

To this end, light fractions of 1 to 10% or less of the oil distillate obtained through pyrolysis should be removed. For this purpose, in the cooling unit 120 of the separation tower 100, oils having a boiling point of 160 ° C. or more are cooled. Cooled and separated by the liquefied by 200, the material is 160 ° C or less are separated (strip) and discharged through the separation unit 110.

Eventually, the flash point changes from a low temperature to a high temperature and the quality of the fuel is improved, which can be seen in Table 1 and Table 2, which are the results of the distillation experiment (AMERICAN SOCIETY FOR TESTING & MATERIALS STANDARD; ASTM D-86).

Therefore, when the hard oil (boiling point 140, ℃ or less) of the distillation is removed, the flash point is changed to an oil having a high flash point of about 50, ℃ at minus flash point.

As mentioned above, although preferred embodiment of this invention was described in detail, the technical scope of this invention is not limited to the above-mentioned embodiment, It should be interpreted by the claim. It will be understood by those skilled in the art that many modifications and variations are possible without departing from the scope of the present invention.

For example, the fuel oil flash point control device of the present invention, in addition to the emulsification device and distillation device of the solid waste, it can be found that the petroleum, coal liquefaction separator, the atmospheric pressure of the organic matter, the high pressure catalytic decomposition after the separation / cooling device can be used.

1 is a view showing a fuel oil flash point control apparatus according to the present invention.

2 to 3 are views illustrating the vertical separator and the horizontal separator of FIG.

4 is a diagram illustrating a configuration in which one or more fuel oil flash point adjusting devices of FIG. 1 are connected in series.

* Description of symbols on main parts of the drawings *

A-Fuel Oil Flash Point Regulator 100-Separation Tower

200-Chiller 300-Vertical Separator

400-Horizontal Separator 500-Heating Coil

Claims (7)

delete A separation tower in which an inlet pipe and an outlet pipe are respectively formed; A cooling device surrounding the separation tower; A gas outlet formed in the separation tower; And Including; a drain hole formed in the separation tower; The separation tower is divided into a cooling unit and a separation unit, A fuel oil flash point control device for separating a mixed phase material of distilled fuel oil, Fuel oil flash point control device, characterized in that the cooling unit of the separation tower is provided with two or more vertical separation plate formed with perforations. 3. The method of claim 2, Fuel oil flash point control device, characterized in that the separation unit of the separation tower is provided with at least one horizontal separation plate formed with a perforation. The method according to any one of claims 2 to 3, Fuel oil flash point control device, characterized in that the heating coil is installed in the separation tower. 3. The method of claim 2, The cooling unit is formed in the inner tube and the outer tube, the inner tube is distilled fuel oil is introduced and the outer fuel oil flash point control device, characterized in that the cooling water circulates. 3. The method of claim 2, The cooling device is composed of an upper and lower cooling device so as to correspond to the separation unit and the cooling unit, respectively, and the upper and lower cooling device is a fuel oil flash point control device, characterized in that composed of a condenser. 3. The method of claim 2, The fuel oil flash point adjusting device is characterized in that the fuel oil flash point adjusting device is arranged in succession.

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