DD266034A1 - METHOD OF DISPERSING, STRUCTURES KEEPING GRAIN-RESISTANT CALCINATION OF SILICONE GEL - Google Patents

Abstract

The invention relates to a process for disperse, structure-preserving and grain-size-securing calcination of kieselguhr in an apparatus with hot-gas spiral and without Anstroemboden, in particular for the production of filter aids. The invention relates to the refinement of diatomaceous earth. The aim of the invention is to achieve a process for energetically favorable calcination of kieselguhr in small-sized apparatuses with long residence times and securing disperse, grain size-programmed end products. According to the invention, the calcination is performed so that a hot gas spiral is generated by tangential Anstroemen and the cyclone effect in the cone area, in the initial region of the diatomaceous earth is overpowered their vortex effect, and over the corresponding long path of the hot gas spiral heat exchange hot gas kieselguhr mti the corresponding physically chemical reactions occurs. The invention can be used in the treatment of diatomaceous earth as a filter aid for the beverage, cooking oil and sugar industry.

Description

Field of application of the invention

The invention can be used as a calcination process for finely dispersed, grain size-programmed raw materials with insufficient vortex properties, in particular for kieselguhr. In this case, the invention relates to diatomaceous earth, which are used as filter aids in the beverage, cooking oil and sugar industries, and the maximum preservation of diatom bodies to secure the flow properties of the Gur have the goal.

Characteristic of the known technical solutions

For the calcination of diatomaceous earth, rotary kilns with a hot gas passage equal or opposite to the flow of material are used on a world scale. These rotary kilns are charged with dried, crushed and purified kieselguhr. In the rotary kilns are carried out significant temperature and time-dependent calcination processes, such as dehydroxylation of the clay, annealing of organic constituents, conversion of soluble iron compounds in insoluble, change the internal structure and reshuffling of the Kieselgurteilchen in the form of the occurrence of crystalline forms u.a. The kieselguhr material treated in the rotary kiln in the bulk material system and emerging as a stream of bulk material from the rotary kiln is characterized in that

- The Kieselgurteilchen were exposed to varying lengths of times with varying high temperatures and thus have different Kalziniereffekte

- The clay components primarily in the course of dehydroxylation to an undesirable clumping and agglomeration of Kieselgurteilchen with the clays and with each other.

Inevitably, this fact results in the necessity of using comminution units for grinding the agglomerates to obtain a disperse further processable powder. This downstream grinding process with the total mass of the calcined kieselguhr means the destruction of a significant part of the kieselgurkörper and the further destruction of existing fragments of kieselgurpanzern and thus the significant reduction of the filtration properties of diatomaceous earth and the increased seizure of diatomaceous earth, which are only as waste for others, subordinate purposes is usable.

The kieselgurpanzer (Diatomeenkörper) due to the uncontrollable and uneven Temperaturinwirkung some phenomena of excessive temperature (melting of the SiO ₂ ) or low temperature effect (lack of completion of the temperature and time-dependent calcination) on all quality parameters and the possible use of Diatomaceous earth negative effect.

In addition, the calcination process in the rotary kiln to ensure the physico-chemical processes of the calcination proceeds with a temperature regime that moves to the limit of the required maximum calcination temperature or even exceeds. This resulted in the conversion of the amorphous SiO ₂ (diatomaceous earth) into crystalline forms (cristobalite) in undesirable magnitudes and without influence possibility. The attempt of producers and research institutes on a world scale to perform the calcination of kieselguhr by the classical fluidized bed method, ie by axial flow of a fluidized bed apparatus with hot gases over a fluidized bed and by entering the diatomaceous earth above the fluidized bed, failed. This resulted primarily from the fact that diatomaceous earth has no or an extremely poor fluidity and therefore did not form a fluidized bed above the fluidized bed. As a result, silica particles without the required thermal treatment with the hot gas stream immediately

entrained and discharged to the top. To ensure the heat transfer from the hot gas to the Kieselgurteilchen and to ensure the necessary Durchhhitzungszeiten for each Kieselgurteilchen (reaching the required calcination temperature), processes with uneconomical apparatus sizes (heights) are required. In addition, the direct contact of the hot gases with the fluidized bed resulted in the need to use a high temperature resistant material for this fluidized bed, which is subject to replacement in relatively short time intervals. The problems of occurrence of uneven and uncontrollable gas-solid streams with the dangers of undesirable process phenomena in the apparatus (clogging, caking, uneven calcination effects and the like) were of increased importance in these processes.

Object of the invention

The aim of the invention is a process for energetically favorable and materially economical calcination of diatomaceous earth, with the aid of which the defined objectives of calcination

- Dehydroxylation of the clay

- Burning of the organic components

- Conversion of soluble iron compounds into insoluble

- Reshaping of the inner structure of the diatom pebbles

is achieved with the utmost preservation of particle size distribution and disperse state of diatomaceous earth for all particles evenly. By the invention, the improvement of the energy efficiency and the reduction of energy consumption, the reduction of the size of the apparatus and thus the reduction of material consumption and the weight of the calciner should be achieved.

Essence of the invention

The invention has for its object to achieve in the calcination in the shortest time periods, the heating and the annealing of the Kieselgurteilchen according to the predetermined temperature regime while maintaining the disperse, grain size-programmed structure diatomite material and thereby to carry out the intended Kalzinationsprozesse.

According to the invention, the following method steps are established for the calcination:

The hot gases are flowed tangentially into the apparatus, so that an onflow or fluidized floor can be omitted. The lower part of the apparatus is formed conical, so that hot gas spiral is formed, which moves upwards in the apparatus.

The upper part of the apparatus is cylindrical after the formation of the hot gas spiral and complete with the tangential outlet on the apparatus head.

The diatomaceous earth is fed into the hot gas stream after the hot gas generation plant and led upwards in the hot gas spiral.

Depending on the required residence time, which is determined by the parameters to be achieved with the calcination, the height of the apparatus is to be determined according to the path of the hot gas spiral. Due to the disperse input of diatomaceous earth in the hot gas stream, the transfer of heat energy from the hot gas molecules in the μιη range Kieselgurteilchen completed in fractions of a second, each particle maximum annealed and the complete completion of the calcination in the shortest time units possible. The spiral path of the hot gas-Gur mixture secures the

lead to deteriorated calcination effects or unwanted caking. Clays predominantly remain in the calcination phase as individual particles of gas flow and reach their desired final state as a result of the rapid reaction without significant agglomeration and when the pores of the diatomaceous earth remain free.

The otherwise occurring problem of very high equipment to secure the residence time when uncontrolled and uneven gas-solid streams occur is turned off. Likewise, the different concentration of Kieselgurteilchen in the hot gas stream and the following technological problems, as they would occur in their supply via the distributor plate of the classical fluidized bed.

embodiment

The invention is explained in more detail below using an exemplary embodiment:

The dried and purified kieselguhr passes disperse in their natural grain size composition in the inflow channel of the calciner. The diatomaceous earth material falling into the inflow channel is entrained in disperse form by the hot gas stream, at the same time distributed over the flow cross section and flowing tangentially into the lower inlet of the calciner. Through the conical lower part of the calciner, the current form started by the tangential entry of the hot gas / diatomaceous earth mixture is continued and formed as a gas-solid spiral. The hot gas kieselguhr spiral continues after the conical bottom portion of the calciner over the cylindrical top of the calciner and is introduced at the calciner head via an opening in the shell of the cylinder into a separation cyclone for separation of the hot gas flow from the solid silica particles. During the stay of the diatomaceous earth in the hot gas stream, the required calcination processes are completed.

Claims (4)

1. A method for disperse, structure-preserving and grain size-securing calcination of diatomaceous earth for further processing of diatomaceous earth to filter aids, in an apparatus with hot gas spiral without the use of an inflow and apparatus heights in large dimensions, characterized in that the heat carrier is flowed in tangentially and by the formation of the lower part the Kaizinators as a cone, the hot gas into which the diatomaceous earth is fed, spirally directed and controlled over the apparatus height is performed, so that a very long hot gas-solid-way is maintained with correspondingly long residence times. 2. The method according to item 1, characterized in that the diatomaceous earth after the Heißgaserzeugerin disperse state controlled and fed into the hot gas stream, so that the Kieselgurteilchen are lapped by the hot gas molecules with the effect of the immediate onset of calcination by heat exchange in fractions of seconds and unwanted agglomeration and insufficient calcination results are avoided. 3. The method according to item 1, characterized in that the non-recoverable in a classical fluidized diatomaceous earth evenly distributed and purposefully guided in the hot gas stream for carrying out the calcining without concentration conditions is transported, so that caking can be avoided. 4. The method according to item 1, characterized in that the conversion of the amorphous SiO ₂ diatomaceous earth in cristobalite over the controllable temperature-time regime of the hot gas spiral safely influenced and durable in the required limits, so that a controllable / programmed calcination after previously determined parameters.