DE4437548C1 - Additive contg. used titanium di:oxide catalyst - Google Patents

Abstract

Ti-contg. additive consists of used TiO2-contg. catalyst. Pref., the TiO2 content is 20-99 (pref.70-95)wt.%. The TiO2-contg. catalyst contains one or more components, pref. one or more oxides of Fe, W, Mo, V, Ca, Si, As and Al.

Description

The present invention relates to a titanium-containing Aggregate for loading into an oven and for raising the durability of the refractory lining of a stove.

As an additive for furnaces, especially blast furnaces in the Iron, steel and foundry industries are becoming larger Amounts of naturally occurring ilmenite as titanium carriers used. The natural ilmenite is usually found in Crushed pieces with a grain size of about 50 mm and put directly into the ovens. The addition of ilmenite causes the nitrogen content in the pig iron in the form of titanium nitrides or titanium carbonitrides is bound. This will denitrify the metallic melt reached. By partially Deposition of the titanium compounds thus formed on the Inner walls of the fireproof brickwork of the kilns, especially in the frame of the blast furnaces, the Durability of the brickwork increased. Natural ilmenite must be obtained with great effort, however natural resources of high quality ilmenite reduced will.

DE 40 18 568 C2 describes a processing method contaminated residues from titanium dioxide production known to undergo an exothermic reaction in which a dry product is generated by water vapor is, the charged for the exothermic reaction Residues from titanium dioxide extraction with contaminated Residues from zinc extraction after Jarosite process, with electrostatic precipitator and with Evaporation salts CaCl₂ · 2H₂O / NaCl from Waste incineration plants are mixed so that the Mixture by exothermic reaction to temperature is heated between 120 and 180 ° C.  

DE 21 25 073 B2 is a refractory material for Linings of heating units known that both against high temperatures as well as against molten acid Slag is resistant and refractory aggregates, such as silicon carbide, chrome iron ore or silicon nitride, in Range from 44 to 85% by weight, binder based of orthophosphoric acid and at least one contains component containing titanium dioxide.

DE 39 37 312 A1 describes a method for the production of a building material, preferably as an immediate, early or late wearing accompanying insulation material for underground construction known, with contaminated residues from the Titanium dioxide production and contaminated residues from the Zinc extraction using the jarosite process, with Electrostatic precipitator ash and evaporation salts CaCl₂ · 2H₂O / NaCl from waste incinerators to be mixed so that it too an exothermic reaction occurs.

DE 30 08 251 B1 is a refractory material for in Pouring steel melts to be cast, in particular Sewer and funnel tube stones, with an AI₂O₃ content of 20 to 32%, an SiO₂ content of 60 to 70% and one Content of accompanying oxides, such as TiO₂, Fe₂O₃ and Na₂O, from <10% and CaO and MgO are known, the content of CaO and MgO is 1.5 to 10%. This is a cast product be produced with an increased degree of purity.

DE 43 04 724 C1 is a titanium-containing additive to put in an oven and to increase the Durability of the refractory lining of a furnace, consisting of residues of TiO₂ production and one or several components selected from coal, carbonaceous residues, iron, iron oxide, iron or residues containing iron oxide, known. This  Titanium-containing aggregate also contains residues the TiO₂ production still other components. For the It is piece-making of this titanium-containing aggregate required a sintered body from the mixture to produce or add a binder to the mixture and the binder-containing mixture in the form of briquettes, Let pellets or granules set. The Setting time is up to 14 days.

The object of the present invention is to a simple, economical and environmentally friendly way titanium-containing aggregate as a replacement for the at metallurgical processes used as aggregate To provide natural ilmenite and its use to increase the durability of the refractory lining of an oven.

The object is achieved by a titanium-containing aggregate, consisting of used, TiO₂-containing catalyst.

In the chemical industry as well as in power plants TiO₂-containing catalysts for the production of organic compounds and for cleaning exhaust gases and wastewater used. These catalysts are used in Form of pellets, honeycomb, briquettes or plates used. As oxidation catalysts in the chemical industry for the synthesis of organic Compounds TiO₂-containing catalysts with a TiO₂ content of 20 to 99 wt .-% used. As Oxidation catalysts for wastewater treatment Catalysts used that have a TiO₂ content of up to 98% by weight. For denitrification of exhaust gases TiO₂ catalysts are used, the one TiO₂ content of 70 to 95 wt .-% have. These  TiO₂-containing catalysts must either after use lavishly recycled or disposed of and more expensive will. In addition to the high costs involved also lost valuable TiO₂ as a raw material. The special one Advantage of the present invention is that the Putting the titanium-containing aggregate into pieces Breaking the TiO₂-containing catalyst is achieved. The Use of additional binders is not required. Another advantage is that the titanium-containing aggregate has a very good effect for the Increasing the durability of the refractory lining of a furnace without the titanium-containing Additional substances can be added to the aggregate ought to. By breaking the TiO₂-containing catalysts will receive multiple fractions for the raise the durability of the refractory lining used will. It is thus according to the present invention Refurbishment or landfill costs for spent Saved catalysts containing TiO₂. Beyond that Valuable TiO₂ that would otherwise have been deposited at a high price have an industrial use. Continue natural resources on existing ilmenite saved, otherwise for this industrial use Ilmenite should be used.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂ content in TiO₂-containing catalyst is 20 to 99 wt .-%. With this titanium-containing aggregate will give good results in increasing the durability of the refractory Brick lining of an oven reached.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂ content of TiO₂-containing catalyst is 70 to 95 wt .-%. With  this titanium-containing aggregate will be very good Results in increasing the durability of the refractory brick lining of a furnace reached.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂-containing Catalyst one or more components, such as Contains metal oxides and coal. These metal oxides can with a total content of up to 30% by weight advantageously be placed in the oven with TiO₂ and therefore do not have to be deposited.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂-containing Catalyst one or more metal oxides of the metals Fe, W, Mo, V, Ca, Si, As and Al contains. With these metal oxides will give good results in increasing durability the refractory brick lining of a furnace.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂-containing Catalyst has a grain size <2 to 60 mm. With these moldings are very good results in the Addition to the oven reached.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂-containing Catalyst in the form of sintered bodies, briquettes, pellets or granules. With these moldings achieved very good results when added to the oven.

An advantageous embodiment of the invention is a titanium-containing additive in which the TiO₂-containing Catalyst has a grain size of <2 mm. With this powdery aggregate will be very good Results achieved when blowing into the oven.  

The invention is illustrated by an example explained.

example

Containing a honeycomb catalyst from the denitrification plant of a power plant
82.0% by weight of TiO₂,
9.2% by weight MoO₃,
0.4% by weight V₂O₅,
1.0% by weight of CaO,
4.2% by weight SiO₂,
1.0 wt .-% Al₂O₃ and
0.6% by weight As,
was broken in a crusher to a grain size of <60 mm. A fraction with a grain size of <2 mm was obtained on sieving and contained 20% by weight of the weight of the honeycomb catalyst used. The second fraction with a grain size <2 mm to <60 mm contained the remaining 80% by weight of the honeycomb catalyst used. The fraction with a grain size <2 mm to <60 mm was placed directly in a blast furnace. The fraction with a grain size <2 mm was blown into a blast furnace. The oxides of Mo, V, Ca, Si, Al and As did not affect the metallurgical process carried out in the blast furnace.

Claims (8)

1. Titanium-containing aggregate to be put in an oven and to increase the durability of the refractory Brick lining of a furnace, consisting of used, TiO₂-containing catalyst. 2. Titanium-containing aggregate according to claim 1, in which the TiO₂ content in the TiO₂-containing catalyst 20 to Is 99% by weight. 3. Titanium-containing aggregate according to claims 1 or 2, in which the TiO₂ content of the TiO₂-containing Catalyst is 70 to 95 wt .-%. 4. Titanium-containing aggregate according to claims 1 to 3, in which the TiO₂-containing catalyst one or several components contains. 5. Titanium-containing aggregate according to claims 1 to 4, in which the TiO₂-containing catalyst is one or several metal oxides of the metals Fe, W, Mo, V, Ca, Si, As and contains Al. 6. Titanium-containing additive according to claims 1 to 5, in which the TiO₂-containing catalyst has a grain size <2 to 60 mm. 7. Titanium-containing aggregate according to claims 1 to 6, in which the TiO₂-containing catalyst in the form of Sintered bodies, briquettes, pellets or granules is present.   8. Titanium-containing aggregate according to claims 1 to 5, in which the TiO₂-containing catalyst has a grain size of <2 mm.