DE853722C - Manufacture of hydraulic binders - Google Patents

Description

Production of hydraulic binders It is known from suitable Silicatic raw materials by heating, possibly with the addition of calcareous Material to produce binders with hydraulic properties. These are thereby requires that part of the silica is converted into the soluble state. The proportion soluble in hydrochloric acid fluctuates with the operating conditions and lies generally between 30 and 500/0.

It has been found that all of the silica contained in silicate raw materials can be converted into the hydrochloric acid-soluble state if the heating is carried out in the presence of steam with a partial pressure greater than 12 Torr while avoiding oxidation.

Example i The mineral raw material used with a composition from 25.00! o S / 02, 17.0% Fe203, A1203, 29.00% Ca0, i7.50 / 0 C02, 2.7% M90, 4.0% S, i, 9% Na20, K20 and 2.9% H20 was in the presence of 12% fuel in one on 60o to 700 ° preheated tube furnace with passage of room air with a water vapor partial pressure less than 12 torr were heated to i ooo to i i oo ". After this treatment were 9% of the silicic acid, which was previously completely insoluble in hydrochloric acid, is soluble in hydrochloric acid.

Was the same raw material with humidified air, its water vapor partial pressure was greater than 12 Torr, otherwise treated in the same way as described above, so all silica was soluble in hydrochloric acid.

EXAMPLE 2 A mixture of the raw material used in Example 1 with 15% lime was heated to 10,000 to 10,000 ° in an upright tube furnace preheated to 60 ° to 700 °, with humidified air flowing over it, the partial pressure of which was greater than 12 Torr. All of the silica was soluble in hydrochloric acid after this treatment. The resulting product shows hydraulic properties without any additional lime additive. Example 3 The mineral raw material used was moist oil shale with a composition of 21.30% S102, 15, 000/0 Fe203, A1203, 2550% Ca0, 15.00% C02, 2.430V0 M90, 3.43% S, 1,1.7 % Na20, K20, 4.17% H2O and 12,000/0 organic matter in a well-insulated shaft furnace, which was preheated to 700 °, heated to 100-100 ° while passing moist air over it. After the treatment, the previously insoluble silica was completely soluble in hydrochloric acid. Smoldering oil was separated from the exhaust gas by condensation. The oil yield was in the range of the technical slate smoldering. Combustible gases can also be obtained in a similar way.

The iron contained in the raw material was partly in this experiment as also in those in which the silica was completely soluble in hydrochloric acid, in passed the two-valued state.

Humidification of the air is not necessary if the raw materials contain moisture or give off water with decomposition in the course of heating.

As a raw material containing silica, the Any residues arising from oil shale smoldering can be used.

The method explained in Example 3 can also be carried out in such a way that that the burning and smoldering of the bituminous rock in one and the same device be carried out sequentially in terms of time and space.

Claims (5)

PATENT CLAIMS: 1. A process for converting the silica contained in mineral substances or mixtures thereof into the soluble state for the purpose of producing hydraulic binders, characterized in that the mineral substances are heated in the presence of water vapor with a partial pressure greater than 12 Torr while avoiding oxidation. 2. The method according to claim i, characterized in that that oil shale is used as a raw material containing silica and heating without it special addition of fuel solely by burning the oil contained in the oil shale combustible parts is made. 3. The method according to claim 2, characterized in that that the combustible parts not required to cover the heat demand in the form obtained from oils or flammable gases. 4. The method according to claim i, .due to this characterized that residues of the mineral, silicic acid-containing raw material Oil shale smoldering can be used. 5. Implementation of the method according to the claims 2 and 3, characterized in that the burning and smoldering of the bituminous Rocks in the same device directly consecutive in time and space be made.