BE505426A - - Google Patents

Description

       

   <EMI ID = 1.1>

  
It is generally accepted that in order to accelerate the rate of settling

  
 <EMI ID = 2.1>

  
abutments), we should as far as possible try to cause an agglomeration of the particles in the form of micelles as large as possible.

  
 <EMI ID = 3.1>

  
equivalents "of particles (diameters measured according to Stokes' law),

  
to the viscosity of the fluid and to the difference in solid-liquid densities. When one is in the presence of deflocculated particles (electrically charged), one first causes the flocculation (discharge of the particles) by addition of suitably chosen electrolytes. An agglomeration of micelles is then obtained, the magnification of which may be necessary.

  
Certain products which will be designated below under the term of “collectors” make it possible to substantially increase the size of the micelles obtained.

  
The present invention relates to a process in which one uses;, to accelerate the settling of solid particles in sau-

  
 <EMI ID = 4.1>

  
killed by specially processed carob bean meal. In fact, starting with carob seed flour, it is possible to obtain, under certain conditions, a product having all the desirable properties.

  
It is the same for the product referred to as white locust bean gum According to the invention, the locust bean seeds are ground to obtain the flour. The gum can also be extracted to obtain the white locust bean gum. For the use of the flour in the process of the present invention, it is not essential to subject it to any purification or refining. It is possible to start from the carob seed flour obtained by grinding the seeds, since coloring does not matter;

  
this obviously constitutes an appreciable economic advantage.

  
It is also possible to start from impure carob bean flour, for example containing a certain proportion of mineral or organic fillers.

  
) The collector is prepared by treating crude carob seed flour with an electrolyte solution, so as to obtain a solution.

  
 <EMI ID = 5.1>

  
However, the higher the viscosity, the more the collecting power is developed. For this treatment, it was found that the electrolytes giving the most advantageous results were the solutions of boric acid and its salts, in the presence or not of the salts of phosphoric acid. You can also, in some cases, use tannin. The preparation takes place hot, the temperature varying from 70 to 130 [deg.]. Heating time varies with temperature. Salts can be added before, during or after heating and cooling. Aging of the solution may sometimes be necessary.

  
The nature of the salt to be used for the treatment of the carob seed flour varies according to the nature of the salts contained in the brine to be treated. Indeed, it has been observed that if the carob seed flour is treated with one of the electrolytes contained in the brine to be treated, the flour thus prepared sometimes seems less sensitive to their action, when it is introduced into brine.

  
To avoid any flocculation of the added collector, when it is introduced into the brine to be treated, it is sometimes preferable to use buffered media during preparation.

  
The quantities of collector to be added are small, they depend on the concentration of insoluble particles, their surface area, and the settling medium; they are determined by inexperience.

  
In all cases, the introduction of a small quantity of carob flour treated according to the process of the present invention generally makes it possible to obtain a settling rate greater than that which can be obtained by the addition of flocculants. known, such as solubilized starch, sodium silicate, alumina sulfate, or untreated locust bean gum o This collector has, on the other hand, the advantage of being able to be used successfully.

  
 <EMI ID = 6.1>

  
The invention applies to all cases where it is desired to accelerate the rate of settling of the particles and, in particular, in the case of the separation of the clay from the brines of potassium and sodium chloride, of the 'elimination of phosphate residues in monocalcium phosphate brines, in the settling of slurries, treatment of coal washing liquors, etc.

  
Two examples of embodiments of the process which are in no way limiting are given below.

  
EXAMPLE 1 -

  
We dilute 300g of crude carob seed flour in 50 liters of distilled water. This solution is treated with 50 liters of a solution containing:

  

 <EMI ID = 7.1>



    

Claims (1)

and heated to the boil for 1 minute. - The colloidal solution thus obtained is used to accelerate the settling of the clay in a brine of potassium and sodium chlorides. To a solution containing, for example 20g. per liter of clay, <EMI ID = 8.1> settling rate compared to that obtained without adding a collector ;, EXAMPLE 2 - 500g is diluted. of raw carob seed flour in 50 l. <EMI ID = 9.1> for 10 minutes per 50 liters of a solution containing: 30 liters of an M solution of B03H3 5 <EMI ID = 10.1> 5 This collector can be used under the same conditions as <EMI ID = 11.1> decantation of phosphate residues in acidic brines of monocalcium phosphate CLAIMS. 1 / Process for accelerating the settling rate of the solid particles contained in brines or in electrolyte solutions, characterized in that the product consisting of carob flour, put in solution, is used as "collector" colloidal by treatment with an electrolyte solution, before or after heating to a temperature <EMI ID = 12.1> carob flour is treated with at least one of the electrolytes contained in the. brine where settling is caused. <EMI ID = 13.1> the brines rich in salts and electrolyte solutions are treated with a small amount of the collector specified above, which varies according to the concentration and composition of the particles. 5 / Collector based on carob seed flour treated as indicated under 1, making it possible to accelerate the settling speed of the solid particles contained in solutions of electrolytes or brines rich in salts.