FR2461687A1 - Burnt clay and active carbon mixed support material - prepd. by calcining lignite clay in reducing oven - Google Patents

Abstract

Process comprises calcining lignite clay in a reducing oven up to 950 deg.C with a stage at 400-500 deg.C to eliminate volatile carbon material. Prod. may be used as support for enzymes or catalysts or as biological bed in water filtration and may have special ceramic uses in siderurgy and other industries in which the ceramics are contacted with liq. materials. Process enables cheap novel prod. of good physical/chemical characteristics combining the functions of the clay and active carbon.

Description

The present invention relates to the field of cooked clays or chamottes and particularly relates to a new material based on chamotte and activated carbon, as well as its applications and a method of production.

Chamotte or baked clay is a very ancient material (falling into the more general category of ceramics) obtained by calcination of various clays and traditionally used for its refractory properties. For several years, however, new avenues of use have been opened thanks to the development of cooked clay aggregates capable of serving as supports in chemical or biblical medium. For example, it has been recommended to use cooked clays doped with certain metallic elements as supports for biological filters in water treatment (see French patent N 76.03573)
Furthermore, activated carbon has been used successfully, under various varieties, for decades as a catalyst or catalytic support, gas absorbing agent, bleaching agent for liquids, pigments, etc. More recently, it has been used used, alone or in combination with other granular materials, as a filtration bed for the biological treatment of surface water or waste water.

 It therefore appears desirable to be able to have a unitary material composed at the same time, in a relatively homogeneous form, of chamotte and activated carbon so as to be able to fulfill several functions, in particular in the abovementioned applications.

 The invention aims at this aim and proposes, to solve such a technical problem, a solution using inexpensive raw materials and leading to a new mixed material having good physico-chemical characteristics.

We know that quite a number of clay deposits are more or less loaded with lignite. For example, there are commonly deposits of kaolinic (or other) clays containing 30 to -7O 7.

of lignite, corresponding to the loss on ignition. Currently, these deposits often remain unexploited or are used in small parts - only by weight - to make a light chamotte by cooking in an oxidizing medium at a temperature above 9000C.

 It has now been found that by carrying out calcination in a reducing medium and under certain conditions, of these argillaceous clay, it was possible to obtain the desired mixed material: active chamotte-charcoal.

 According to an advantageous process in accordance with the invention, the lignite clay is calcined in a reducténsten furnace providing a slow rise in temperature, the heating being carried out progressively to a limit of 95,000, with plateau in the interval 400 to 50,000 for the removal of volatile matter from coal.

In practice, the operation is preferably carried out in a hermetically sealed crucible, made of graphite, provided with vents for the evacuation of the vapors of volatile compounds.

It is known that, in the known methods of obtaining activated carbon, the activation is carried out after heating the carbonaceous materials at 400-6000C by generally using as activating agents steam or carbon dioxide. In the process of the invention, it is apparently the water of constitution of the clay component which plays the role of activator; for example, kaolin clay (2 Si02,
Al2O3, 2H20) loses its 2H20 around 560 to 60,000 to transform into meta-kaolin (2 Si02, A1203) and this water acts to obtain m; -z active carbon cropores in the mass being calcined.

 The aforementioned temperature limit, around 95000, is certainly not sufficient to ensure the complete transformation of meta kaolin into mullite and cristoballite which are the constituents of chamottes. However, it seems that the presence of carbon in the product heats up alongside the oxides A1203 and Si02 is favorable, by the reducing effect caused, to defects in stoichiometry -in oxygen, which leads to obtaining a product porous with a high surface etectro-positivity. However, such products have very advantageous properties, in particular when they are used as media for capturing bacteria or microorganisms (see French patent N079.15632 of the Applicant).

 Of course, if the activation of the final product proves to be insufficient by the process described above, additional activation can be undertaken according to conventional methods.

The main characteristics of the mixed products obtained can be summarized as follows: the apparent density is of the order of 0.7 to 1; the chemical composition, in the case where the starting material is a kaolinic lignite, reveals carbon ranges from 20 to 40 Z (by weight) and proportions of oxides to twist according to
Fe203: 0.75 to 1.8 CaO + IlgO: 0.1 to 0.4 TiO2: 0.75 to 1.8 A1203: 20 to 35 Na20 + K20: 0.2 to 1.8 Sii:: 20 to 40
The particle size is generally between 0.1 and 10 mm for most of the applications envisaged. Absorption tests with methylene blue have given figures of 20 to 40 mg per g of material for a zero residual content of the liquor.

 The new mixed materials: chamotte-activated carbon according to the invention lend themselves to numerous applications, in particular in large part to those corresponding to the known uses for each of the essential constituents. Mention may very particularly be made of the attachment media for enzymes, the catalytic supports for chemical reactions, the granular masses favoring the retention of microorganisms, for example in the biological filtration beds of surface water or waste water. also be considered in the ceramic industry for the manufacture of concrete, rammed earth and similar unshaped materials intended for the steel industry and other industries where ceramics are brought into contact with liquid materials.

Claims (5)

 1. Method for obtaining a mixed product: baked clay (or chamotte) activated carbon, characterized in that a clay lignite is calcined in a reducing furnace up to a limit of 950oC, with plateau in the interval 400 at 5000C for the removal of volatile matter from coal.  2. Method according to which the activation of the carbonaceous material of the gnite is obtained by the dehydration of the clay.  3. Method according to any one of claims l and 2, characterized in that the calcination and activation are carried out in a closed graphite crucible.  4. Mixed chamotte-activated carbon materials obtained in particular according to the method of claims 1 to 3 and having the following characteristics  bulk density: 0.7 to 1 particle size 0.1 to 10 mm; absorption with methylene blue: 20 to 40 mg per g of the material; oxide composition  Fe203: 0.75 to 1.8 CaO + MgO: 0.1 to 0.4 Ti02: o, 75 to 1.8 Al2O3: 20 to -35  Na20 + K20: 0g2 to 1.8 SiO2: to-40  proportion of carbon: 20 to 40 Z- (weight) 5. Application of the materials according to claim-4 in particular as attachment media for enzymes, catalytic supports, biological water filtration beds, special ceramics for the steel industry.