DE2242544A1 - PROCESS FOR THE MANUFACTURING OF SOOT PELLETS FOR SOOT REMOVAL FROM AN AQUATIC SOOT SUSPENSION - Google Patents

Description

SHELL INTERNATIONAL RESEARCH MAATSCHAPPIJ N.V., The Hague, Netherlands

"Process for the production of soot pellets for soot removal from an aqueous soot suspension "

Priority: September 1, 1971, Great Britain No. 40 792/71

The invention relates to a method for producing carbon black pellets in the removal of soot from an aqueous soot suspension, which in the washing of water by partial combustion of Soot-containing synthesis gas formed by Kohler mass substances has been obtained, in which the soot from the in turbulent motion The suspension held is pelletized by adding one or more light hydrocarbons as a carbon black binder and the resulting, Pellets consisting of soot and binder are then separated from the water purified in this way and to be dried.

As is well known, the water used to scrub the soot-containing synthesis gas must be recycled or discharged be cleaned by separating the soot. The soot obtained in this way is because it can be reused as fuel, for example The separation of the soot from the water can be carried out by making the suspension set in turbulent motion and one or more light hydrocarbons as binding agents

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medium clogs. The binding agent displaces the water from the surface of the soot particles, which then when it comes into contact glue together. The wet pellets or agglomerates formed in this way can be more or less pronounced Possess spherical shape. Their size and shape depend on the type of turbulent movement, the concentration of the soot and the binder used, the temperature and the duration of the pelletizing or agglomeration process. A very suitable process, according to which pellets with a diameter of 2 to 6 mm are made from soot particles with a particle size of about 10 microns is described in British Patent 1,024,475.

Various hydrocarbons such as gasoline, light gasoline, gas oil, heating oil and bitumen are used as binders. Substances such as toluene can also be used. The use of light hydrocarbons has the advantage that the binding agent e.g. by adding hot heavy fuel oil to the wet pellets or agglomerates, which leads to the evaporation of the light hydrocarbons and the absorption of the soot in the heavy fuel oil can be. However, dry pellets are not obtained. Solid pellets are obtained by evaporating the light ones Hydrocarbons from the wet pelleta or agglomerates without contacting any other liquid. Pure storage or transport, the pellets must have a greater strength than those obtained in this way. This can by using heavy oils or bitumen! as binding

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medium can be achieved. As long as the pellets obtained in this way are only used as fuel, it is sufficient that they are used during during transport or in the course of storage do not disintegrate into dust or stick together too quickly, which is easily achieved well known methods can be achieved.

Surprisingly, it has now been found that one of the aforementioned Soot originating from gas generation has a particularly high porosity and is therefore suitable as an adsorbent is. In particular, the specific surface and the pore volume have extremely high values. The pelletization However, this carbon black according to the generally known method leads to a great reduction in the porosity or to pellets with a very low mechanical strength that are very difficult to handle. The invention now provides a method by which these difficulties can be overcome.

The invention accordingly relates to a method for the production of soot pellets in the removal of soot from an aqueous soot suspension, the soot-containing synthesis gas formed during the water washing of a soot-containing synthesis gas formed by partial combustion of hydrocarbons has been obtained in which: ■ ,.

the soot from the suspension kept in turbulent motion pelletized by adding one or more light hydrocarbons as carbon black binders and the resulting from Soot and binding agent existing pellets are then separated from the water purified in this way and dried, which is characterized by the fact that in the course of the pellet!

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a non-volatile additive to solidify the pellets is added to the aqueous carbon black suspension and

that the non-volatile additive by a secondary treatment of the solidified dried pellets at temperatures between 300 and 500 ° C

turbulent movement of the suspension h from the consequence that the binder and distributing the additive to solidify the pellets uniformly over the soot particles. The binder consists of a light one Hydrocarbons or from a mixture of light hydrocarbons, such as petrol or gasoline, through which the soot particles are particularly well wetted. This addition of binder leads to agglomeration and the formation of pellets. These pellets can be separated from the liquid e.g. by filtration or by means of a cyclone. Depending on the one used Agglomeration process, the liquid can consist of water or the "binder. The pellets obtained in this way mainly contain a small amount of free binder between the particles and in their pores. Also included the pellets are the additive to solidify them. Depending on the type of additive used, this is the only one between the soot particles or in their pores. The received Pellets still have a fairly low strength and, because of the filled pores, still have a low porosity. Eb it is recommended to completely or practically remove the pellets before the heat treatment by evaporation of the binding agent to dry completely. This is done, for example, by treating the pellets in a fluidized bed by means of a gas flow from carried out at a suitable temperature. When using gasoline

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as binder this temperature, for example 12O is ⁰ C. The non-volatile additive remains in the pellet. Subsequently, the heat-treatment is carried out at a temperature of at least 300 G ^0. The temperature used depends on the additive used in each case, but must be high enough to cause solidification, for example by thermal cracking and charring when using an organic substance as an additive, or by melting or in some other way, as explained below. As a result, the mechanical strength of the pellets increases significantly and the high porosity is maintained or restored.

A bituminous substance is particularly suitable as an additive. This can be a bitumen or a tar product. The additive can be added in an amount of 1 to 20 percent by weight based on the weight of the carbon black. The heat-treatment may be in a low-oxygen gas, for example in nitrogen, can be carried out at temperatures from 350 to 800 ⁰ C. At temperatures of 350 to 400 ^° C., a gas with a low oxygen content of, for example, no more than 10 percent by volume of oxygen can be used. The bituminous additive can optionally be added to the suspension as a solution in the binder, for which purpose an aromatic binder such as toluene is suitable. However, the bituminous additive can also be used dispersed in the binder in the form of very small particles. Bitumen is thermally split at temperatures from 350 to 800 ^{° C.} The volatile fission products are carried away by the gas and a charred residue remains, which leads to a strong

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the soot particles adhere. Since this is also the case when it is dissolved in the binder Bitumen that has penetrated into the soot pores is split, the pores remain accessible. When using powdery a After agglomeration, the pores of bitumen only contain volatile binding agent, which is finally driven completely when it evaporates. In addition to bituminous substances, residual heating oils or asphaltenes can also be used.

When performing the post heat treatment with a steam containing Gas with e.g. a steam content of at least 25 percent by volume or with steam alone can further improve the Rsrösi'üc will. A chemical reaction between steam and the charred fissure residue transfers another part of the fissure residue in volatile substances.

The additive for solidifying the pellets can also consist of a material with a fiber-like structure. Fibrous material consisting of a polymeric substance such as nylon, polystyrene, polypropene or polyethene is particularly suitable. The post-heat treatment can then be carried out at temperatures of 300 to 40O ⁰ C, which leads to a melting of the polymeric fibers and the sticking together of these fibers and these fibers with the carbon black particles. Materials such as cellulose and wool as well as glass wool or metal wool can also be used.

Glass powder can also be used, e.g. in an amount of 2 to 40 percent by weight, based on the weight of the kiss, can be used as an additive. It can have a particle size of 5 to 500 microns

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exhibit. The heat treatment can then be carried out at temperatures within the softening range of the glass. Here, too, melting leads to agglomeration of the glass material ^ with the soot particles being enveloped and with the soot particles.

Also, clay-like material "can be used as an additive. It can be in an amount of 5 to 100 * weight percent, based on the weight of the carbon black may be added. The heat treatment can be carried out at temperatures from 1600 to 2000 ⁰ C performed v / ground. As Clay-like materials are suitable, bentonite or kaolin.

For heat treatment as well as for drying the pellets the treatment in a fluidized bed 'is particularly suitable. It can be connected in series, continuously working Acting fluidized beds.

The pellets are well suited for use in adsorption processes, particularly for purifying water. For example can the water obtained by filtration of activated sludge from biological wastewater treatment be purified, by passing it through beds filled with pellets produced according to the invention.

The examples illustrate the invention.

Parts of a carbon black slurry are made using gasoline or toluene as a binder and various amounts of bitumen as an additive to solidify the pellets.

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2 2 Λ? 5 Λ Α

Table I gives the aftertreatment used and those obtained Properties again.

Table I.

attempt

binder

Additive, heat after weight treatment bitumen 1/2 h in (based on $ 00> on soot) p

$ N

Pore volume,

cm

Surface ,

m / g

1 toluene _ _ 1.45 1 114 2 H 3 - 1.48 942 3 It 3 800 1.82. 1265 4th Il 15th 800 1, 82 1015 5 petrol - 800 2.00 1306

The heat treatment at 800 G leads to large pore volumes and large surfaces. The highest values are obtained by using gasoline as a binder and post-heat treatment. The pallets obtained show increasing mechanical strength in the following order of the test numbers 1 -5-2-3-4 on.

Table II shows another series of tests carried out with toluene as a binder and polystyrene as an additive to solidify the pellets. The 0.5-hour after-treatment of the Ilitzen in a (^ atmosphere at temperatures from 350 to 64O ⁰ C leads to solid pellets with very good adsorption properties.

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Adsorption is measured using methylene blue (MB) in a solution with a residue concentration of 0.001 percent.

; Table II

Trial additive, post heat treatment adsorption, No. Polystyrene (cover, mg MB / g

on soot) ⁰ C

350 25

390 70

500 200

640 200

350; 120

1 147 2 147 3 147 4th 147 5 100

The pellets show increasing mechanical strength in the following order of test numbers 5-3-4-2-1.

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Claims (3)

Patent application 1. Process for the production of soot pellets during the removal of soot from an aqueous soot suspension / which has been obtained from the water washing of a soot-containing synthesis gas formed by partial combustion of hydrocarbons, in which the soot is removed from the turbulent suspension by adding one or more light hydrocarbons pelletized as carbon black binder and the resulting pellets consisting of carbon black and binder are then separated from the water purified in this way and dried, characterized by the fact that in the course of the pelletization a non-volatile additive is additionally added to solidify the pellets to the aqueous carbon black suspension and that the non volatile additive is solidified by a heat-treatment of the dried pellets at temperatures of 300 to 3000 ⁰ C. 2. The method according to claim 1, characterized in that a bitumen is used as an additive for the hardening of the pellets will. 3. The method according to claim 2, characterized in that the bitumen in an amount of 1 to 20 percent by weight, based on the weight of the carbon black. 4. The method according to claim 2 and 3, characterized in that the bituminous additive used dissolved in the binder will. 3 0 9811/1124 5. The method according to claim 2 and 3, dadux-ch characterized, that the bituminous additive in the binder in the form of finer Particles dispersed is used. 6. The method according to claim 1 to 5 »characterized in that the heat treatment is carried out at temperatures of 350 to 800 ⁰ C in a low-oxygen gas atmosphere ο 7ο The method according to claim 6, characterized in that a nitrogen atmosphere is used as the gas atmosphere 8. The method according to claim 6 or 7, characterized in that a gas atmosphere containing steam or consisting of steam is used'. 9. The method according to claim 6, characterized in that a gas atmosphere containing at least 25 percent by volume of steam is used. 10. The method according to claim 1, characterized in that a material with a fibrous structure is used as an additive to solidify the pellets. 11. The method according to claim 10, characterized in that a fiber-like substance consisting of a polymeric substance Material is used. 3 0 9 8 '1 1/1 1 2 2742544 12. The method according to claim 11, characterized in that the heat treatment at temperatures of 300 to 400 ° C is carried out. 13 · The method according to claim 1, characterized in that Glass powder is used as an additive to solidify the pellets. 14 · The method according to claim 13, characterized in that glass powder with a particle size of 5 to 500 microns is used. 15. The method according to claim 13 or 14, characterized in that that the glass powder is used in an amount of 2 to 40 percent by weight, based on the weight of the carbon black 16. The method according to claim 13 to 15, characterized in that the heat treatment at a temperature within the softening range of the glass is carried out. 17 · The method according to claim 1, characterized in that a clay-like material is used as an additive to solidify the pellets. 18. The method according to claim 17, characterized in that the clay-like material in an amount of 5 to 100 percent by weight, based on the weight of the soot. 3098 1 1/1124 - ^Γ "22425A4 19 · - Procedure according to ■ claim ■ ^; 17 "or 1 -8, marked by the fact that the heat treatment is carried out at temperatures between 1600 and 2000 ⁰ C ^.; - ■ * ■ ■ - ■ ■■ - ■ - . ' 20. The method according to claim 4 to 19, characterized in that that the after-treatment is carried out in a fluidized bed will. 21. Use of the carbon black pellets produced according to claims 1 to 20 as an adsorbent. : ■■ '■ "- 3 09811/1124 BATH ORIGINAL