KR101626015B1 - Catalyst recovery - Google Patents

Abstract

The present invention discloses a waste catalyst recovery apparatus in which the recovery of spent catalyst is performed quickly and the catalyst recovery rate can be increased.
The present invention relates to a recovery device comprising a recovery container provided with an internal storage space into which a primary material necessary for recovering a catalyst is charged together with a spent catalyst, a cover (17) covering the opening of the recovery container, And a filter 16 installed in the recovery container 16a. After the catalyst in the solution dissolved in the solution is first recovered through the filter 16, the secondary material is directly introduced into the recovery container, Lt; / RTI >

Description

[0001] CATALYST RECOVERY [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste catalyst recovery apparatus, and more particularly, to a waste catalyst recovery apparatus capable of shortening a cooling time and performing both water washing and lime washing in one apparatus.

As environmental problems such as global warming are emerging, technologies for producing energy from fossil fuels, especially coal, are being developed utilizing clean technologies. In this technology, gasification technology is used to produce synthesis gas of hydrogen and carbon monoxide through a thermochemical conversion process instead of a direct combustion method of highly polluting coal. In this methane gas producing apparatus, carbon monoxide gas, hydrogen gas and the like are produced by gasifying coal and the like under high temperature and high pressure conditions, and methane gas is produced by methanation of produced carbon monoxide in the methanation reactor. With this apparatus, Korean Patent Laid-Open Publication No. 2010-0116540, 'Method and Apparatus for Generation of Alternative Natural Gas' was developed.

The catalyst used in the catalytic coal gasification process of this conventional structure was recovered by limewater washing. This method of lime washing has a limitation in that it can be recovered only after 6 or more processes. The catalyst salt used in the coal gasification process is expensive, and it can be recycled only by repeated washing of the lime water, which is costly.

Korean Patent Publication No. 2010-0116540

SUMMARY OF THE INVENTION It is an object of the present invention, which has been made in view of the above, to provide a waste catalyst recovery apparatus capable of performing water washing and lime water washing sequentially in one apparatus, thereby improving the catalyst recovery efficiency.

It is another object of the present invention to provide a waste catalyst recovery apparatus which can be economically secured by performing water washing and lime water washing in a single apparatus in a simple structure.

To achieve the above objects, the present invention provides a waste catalyst recovery apparatus comprising: a recovery vessel having an internal storage space into which a primary material necessary for recovering a catalyst is charged, together with waste catalyst; A cover covering the opening of the recovery container; And a filter disposed in a recovery port passing through the recovery container, wherein after the catalyst in the solution dissolved in the solution is firstly recovered through the filter, a secondary material is directly introduced into the recovery container, Recovery is done.

More preferably, the primary material is made of distilled water.

More preferably, the secondary material is composed of calcium hydroxide and potassium hydroxide in powder form to be fed together with distilled water.

More preferably, the cover is connected to a nitrogen injection line and a discharge line through which nitrogen gas can be injected.

More preferably, the cover is provided with a stirrer which is inserted into the internal space of the recovery container and rotates.

More preferably, the cover is provided with a temperature sensor for measuring the temperature and a pressure sensor for measuring the pressure, which is introduced into the space for accommodating the recovery container.

Still more preferably, the cover is fitted with a heat exchanger which is drawn into the inside accommodation space of the recovery container and is cooled.

More preferably, the recovery container comprises a stainless steel container; And a tempered glass container provided on an inner surface of the stainless steel container, and a heater is mounted on an outer circumferential surface of the stainless steel container.

The controller may further include a controller for receiving a signal indicative of temperature and pressure inside the recovery container and controlling the temperature, pressure, and rotation speed of the recovery container.

As described above, in the waste catalyst recovery apparatus according to the present invention, the recovery vessel subjected to the first recovery of the catalyst through the water washing process is immediately subjected to the lime water washing process to perform the second recovery of the catalyst, The recovery rate is improved.

In addition, since the heat exchanger in which the cooling water or the coolant flows is provided in the recovery container, the cooling time can be shortened and the operation time is shortened.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a state diagram showing a spent catalyst recovery apparatus, which is a preferred embodiment of the present invention;
2 is a sectional view showing the recovery container shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a spent catalyst recovery apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Here, the shape, size, ratio, angle, number and the like shown in the accompanying drawings are schematic and may be modified somewhat. 2) Since the drawing is shown by the line of sight of the observer, the direction or position to explain the drawing can be variously changed according to the position of the observer. 3) The same reference numerals can be used for the same parts even if the drawing numbers are different. 4) If 'include', 'have', 'have', etc. are used, other parts can be added unless '~ only' is used. 5) Numerals can also be interpreted as described in the singular. 6) Even if the shape, size comparison, positional relationship, etc. are not described as 'weak or substantial', it is interpreted to include the normal error range. 7) 'after', 'before', 'after', 'after', and 'after' are not used to limit the temporal position. 8) The terms 'first, second, third', etc. are used selectively, interchangeably or repeatedly for convenience of division, and are not construed in a limiting sense. 9) If the positional relationship of the two parts is described as 'on top of', 'on top', 'on bottom', 'on side', 'on side' and so on, This can also be located. 10) When parts are electrically connected to '~ or', parts are interpreted to include not only singles but also combinations, but parts are interpreted solely if they are electrically connected to '~ or'.

FIG. 1 is a state diagram showing a spent catalyst recovery apparatus, which is a preferred embodiment of the present invention, and FIG. 2 is a sectional view showing the recovery container shown in FIG.

As shown in FIGS. 1 and 2, a waste catalyst recovery device according to a preferred embodiment of the present invention includes a recovery container having an internal storage space into which a primary material or a secondary material is charged together with waste catalyst, A heat exchanger provided inside the collection container, and a stirrer 3 drawn into the collection container.

The primary material consists of distilled water and the secondary material consists of powdered calcium hydroxide (Ca (OH) ₂ ) and sodium hydroxide (KOH) together with distilled water.

The recovery container comprises a tempered glass container 8 provided with an internal space into which waste catalyst is drawn and a stainless steel container 6 surrounding the tempered glass container 8. [ A heater (5) is wound around the outer peripheral surface of the stainless steel container (6). The heater 5 can adjust the temperature of the spent catalyst by applying heat to the stainless steel container 6. [

A recovery port 16a penetrates the bottom surface of the stainless steel container 6 and the tempered glass container 8. A filter 16 through which the liquefied spent catalyst passes is mounted in the recovery port 16a.

The cover 17 is in the shape of a plate having an area enough to cover the opening of the recovery container and is fixed to the upper end of the recovery container by bolts. The cover 17 is connected to the nitrogen injection line 2 and the exhaust line 11. The other side of the nitrogen injection line 2 is connected to the nitrogen container 1 and the valve is mounted in the middle of the nitrogen injection line 2 and the exhaust line 11. [

The cover (17) is equipped with a stirrer (3). The rotating shaft of the stirrer 3 is drawn into the inside of the collection container, and the blade 7 is mounted at the end thereof. The blade 7 is rotated to mix the waste catalyst and the primary material or the secondary material introduced into the recovery container and mix well.

The cover 17 is equipped with a temperature sensor 4 capable of measuring the temperature inside the recovery container and a pressure sensor 10 capable of measuring the pressure.

A heat exchanger (12) is introduced into the cover (17), and a cooling channel is connected to the outside to form a closed cycle. A plurality of valves (13, 14) and a chiller (15) are connected to the cooling channel. A separate refrigerant or cooling water may be used for the cooling flow path. The chiller 15 regulates the temperature by exchanging heat with the refrigerant flowing along the cooling flow path from the outside. It is mainly used for cooling. The chiller 15 cools the refrigerant, and the cooled refrigerant passes through the heat exchanger to cool the material filled in the recovery container.

The heater 5, the heat exchanger 12, the agitator 3, the valves 13 and 14 receive the temperature and pressure signals inside the recovery container measured through the temperature sensor 4 and the pressure sensor 10, And a control unit 9 for controlling the temperature, the pressure and the rotation speed.

The operation of the spent catalyst recovery apparatus, which is a preferred embodiment of the present invention, will now be described.

The recovered catalyst, potassium, is present in an amount of 75 to 85% by weight of water and 15 to 25% by weight of insolubility. The water-soluble potassium compound forms K ₂ CO ₃ , KOH, K ₂ S, and the insoluble potassium compound forms KAlSiO ₄ and KFeS ₂ . Water soluble potassium is dissolved in distilled water and recovered. Insoluble potassium is dissolved in limestone and recovered. Such water washing and lime water washing are repeated.

First, the spent catalyst is introduced into the internal space of the recovery container, the distilled water as the primary material is introduced, and then the cover 17 is closed to seal it. Then, a valve provided in the injection line 2 is opened to inject nitrogen gas into the inside of the injection line 2. The entire process of recovering the spent catalyst should be kept air-free. Since insoluble compounds can be oxidized to water, nitrogen is injected to prevent this. The valves installed in the injection line and the discharge line (2, 3) are adjusted to discharge the air, inject nitrogen gas into the recovery vessel, and adjust the internal pressure of the recovery vessel.

When the injection of nitrogen is completed, the blade 7 of the agitator 3 is rotated so that distilled water and charcoal / material forming the spent catalyst can be sufficiently mixed. The catalyst is recovered in distilled water by stirring for a certain period of time. At this time, the controller 9 measures the internal temperature and pressure, and controls the internal temperature, the pressure, the number of revolutions of the agitator, and the like so that the catalyst can be recovered smoothly.

When the recovery of the water-soluble potassium oxide by the distilled water is completed, the recovery port 16a is opened and discharged to the outside. At this time, only the distilled water from which the catalyst is recovered is passed by the filter 16, and the cake containing the water-insoluble potassium compound not dissolved in the distilled water remains in the recovery container.

When the recovery of the primary catalyst is completed, the recovery port 16a is closed again.

Then, the secondary material is injected into the recovery container. The secondary material is composed of calcium hydroxide and potassium hydroxide in powder form together with distilled water.

When the injection of the secondary material is completed, the valve installed in the injection line 2 is opened with the cover 17 closed, and nitrogen gas is injected into the inside. The valves installed in the injection line and the discharge line (2, 3) are adjusted to discharge the air, inject nitrogen gas into the recovery vessel, and adjust the internal pressure of the recovery vessel.

When the injection of nitrogen is completed, the blade 7 of the agitator 3 is rotated so that distilled water and charcoal / material forming the spent catalyst can be sufficiently mixed. The catalyst is recovered in the lime water by stirring for a certain period of time. At this time, the controller 9 measures the internal temperature and pressure, and controls the internal temperature, the pressure, the number of revolutions of the agitator, and the like so that the catalyst can be recovered smoothly.

Secondly, when the collection of the insoluble potassium oxide by the lime water is completed, the recovery port 16a is opened and discharged to the outside. At this time, only the lime water from which the catalyst has been recovered is passed by the filter 16, and the cake which is not dissolved in the lime water is left in the recovery vessel.

In order to increase the recovery rate, it is possible to control the number of times the primary material is input and the number of times the secondary material is input. It is preferable to carry out a primary waste catalyst recovery process in which a primary substance is normally charged and a secondary waste catalyst recovery process in which a secondary substance is charged in three to four times.

As described above, in the waste catalyst recovery apparatus according to the present invention, the secondary material can be directly injected into the same recovery vessel following the water washing for inputting the primary material, and the lime water washing can be continuously performed. That is, in order to carry out the water washing and the washing of the lime water, the existing recovery device is a method in which the sample is firstly removed from the reactor and then re-introduced again. However, in the present invention, Since the sample (= cake) can be continuously processed without removing the sample (= cake) after the recovery of the waste catalyst, the workability is improved and the recovery rate of the spent catalyst is also increased.

Also, the spent catalyst recovery apparatus according to the present invention has an advantage that the cooling time is very short. In the conventional recovery device, if the time taken for cooling to room temperature at 200 ° C is about 1 hour and 30 minutes, cooling can be achieved within 20 minutes under the same conditions by the heat exchanger 12 in the waste catalyst recovery apparatus of the present invention.

In addition, when the liquefied water is heated in the secondary waste catalyst recovery operation, the liquefied water is vaporized and lost to the outside. However, in the present invention, powdered calcium hydroxide and potassium hydroxide are added to distilled water and mixed with a stirrer to make lime water Therefore, the existing losses were solved.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1: nitrogen container 2: injection line
3: Stirrer 4: Temperature sensor
5: heater 6: stainless steel container
7: Blade 8: Tempered glass container
9: control unit 10: pressure sensor
11: exhaust line 12: heat exchanger
13, 14: valve 15: heater
16: filter 16a:
17: cover

Claims (9)

A recovery container provided with an internal storage space into which a primary material necessary for catalyst recovery is charged, together with waste catalyst;
A cover (17) covering the opening of the recovery container;
A filter (16) installed in a collection port (16a) passing through the collection container; And
And an agitator (3) mounted inside the recovery container to agitate the substance introduced into the recovery container,
Calcium hydroxide and potassium hydroxide in powder form together with distilled water are charged into the recovery container, the agitator (3) is operated to generate a lime water as a secondary material,
The catalyst in a state dissolved in the solution produced through the primary material passes through the filter 16 and is primarily recovered. Thereafter, the lime water is charged into the spent catalyst remaining in the recovery vessel, Is passed through the filter (16) to be secondarily recovered, and the primary recovery and the secondary recovery are repeated at least once. The waste catalyst recovery system according to claim 1, wherein the primary material is distilled water. delete The cover (17) according to claim 1, wherein the cover
Wherein a nitrogen injection line (2) capable of injecting nitrogen gas is connected to a discharge line (11). delete The cover (17) according to claim 1, wherein the cover
Wherein a temperature sensor (4) for measuring the temperature and a pressure sensor (10) for measuring the pressure, which is charged into the internal space of the recovery container, is mounted. The cover (17) according to claim 1, wherein the cover
And a heat exchanger (12) that is drawn in and cooled in the internal storage space of the recovery container is mounted. The apparatus according to claim 1, wherein the recovery container
A stainless steel container (6); And
And a tempered glass container (8) provided on the inner surface of the stainless steel container (6), and a heater (5) is mounted on the outer circumferential surface of the stainless steel container (6). The method according to claim 1,
Further comprising a control unit (9) for receiving a signal indicating a temperature and a pressure of the inside of the recovery container and controlling the temperature, pressure, and rotation speed of the stirring device inside the recovery container.

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