DE318177C - - Google Patents

Description

ISSUED FEBRUARY 10, 1920

CLASS 12n GROUP

through reduction.

For the reduction of powdery nickel oxide to finely divided metal for catalytic Until now, externally heated rotating drums or rotary ovens have been used for this purpose.

The well-known drum-shaped apparatus have the disadvantage that they only allow periodic work; the tubular Apparatuses allow uninterrupted work, but then either require

o Relatively high reduction temperatures, their use usually the catalyst adversely affected, or a great length when working at low temperatures of the rotary kiln, which in turn is a considerable technical disadvantage.

These disadvantages are partially eliminated by the fact that the powdery material by means of tiers arranged one above the other and filled with an atmosphere of reducing gases Chambers conducts such that the material to be reduced in extensive contact with the Heating surfaces of the chambers and comes with the reducing gases.

There are already tiered ones

s5 ovens have been proposed in which the Heating of the chambers is effected by the fact that gases preheated elsewhere in the hollow bottoms of the chambers are introduced. The heating is therefore indirect. Such

Furnaces have the serious disadvantage that the regulation of the temperature is extraordinary difficult and, above all, cannot be easily changed instantly

can. '. . ■

These difficulties are overcome when one floor heating the chamber not indirectly through hot gases, but directly through electrical heating wires. ;

In the drawing is a built for the method of the invention furnace in an equipment Management example shown, namely Fig. ι shows a longitudinal section of the furnace, FIG one of the floors in the same section, and FIG. 3 shows a floor in a view from below.

The standing furnace A is divided into chambers r, /, which are arranged one above the other in tiered form through partition walls q. divided. For the conveyance of the reaction material from one chamber into the one below, the bottoms s, s' are provided with openings arranged offset to one another. In the illustrated embodiment, for. B. the chamber bottoms s with centrally arranged openings t and the chamber bottoms s' with openings f , which are arranged in the circumference on the jacket of the furnace. In order to convey the reaction product, there are paddle arms in "each chamber, which are seated on the shaft d mounted centrally in the furnace and whose paddles ν are inclined in such a way that, for example, in the chambers r they move the product from the inside to the outside and into the Conveying chambers / from the outside in. The heating of this furnace takes place in accordance with the invention in such a way that electric heating elements are built into the chamber bottom s, s'.

Working with this furnace is designed

as follows: The powder to be reduced is continuously introduced at the top, while reducing gas, z. B. hydrogen is introduced, which rises in countercurrent to the powdery material. The goods fall on the floor of the chamber. It is conveyed in the chambers r from the inside to the outside and in the chambers / from the outside to the inside by the blades

ίο and so gets through the opening t ' at the chamber bottoms s' and through the opening t at the chamber bottoms s. into the chamber below, where the same process is repeated. Eventually it leaves the bottom chamber while the gases exit from the top chamber.

Of course, the furnace is also capable of certain structural changes without this changes something in the essence of the invention. The special advantage of the in Fig. Ι illustrated electrically heated Oven consists in the fact that you have the heat regulation and heat distribution very precisely in your hand are with this furnace with regard to the fact that it is externally covered by an insulating jacket is secured against heat emission, very low. The from the withdrawing gas and ■ Heat carried over by water vapor mixtures can be used to preheat the gas entering the apparatus with the aid of a suitable Heat exchange apparatus can be made usable again.

The entire furnace can be made up of a single unit, only with transverse walls with 3; sets arranged openings composed of subdivided space.

Claims (1)

Patent claim: Procedure for. Production of finely divided nickel for catalytic purposes by reduction, characterized in that the good to be reduced in one reducing atmosphere via plates arranged one above the other in layers, 4; which are electrically heated conducts. 1 sheet of drawings.