RU1792915C - Method for separation ultraspersed diamond of stable aqueous suspension - Google Patents

Abstract

The invention relates to the field of separation of ultrafine diamonds from stable aqueous suspensions and eliminates contamination of diamonds and simplifies the process of coagulation of diamond. A stable aqueous suspension containing ultrafine diamond particles of 0.1% concentration is subjected to treatment at 81-190 ° C under a pressure of 49-1200 kPa for 5-15 minutes. During the indicated time, complete coagulation of ultrafine particles of diamond occurs, while the coagulation time in the known method is 57600 minutes.

Description

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WITH

The invention relates to the field of chemical technology, in particular to processes for the separation of ultrafine diamonds from stable aqueous suspensions.

j The aim of the invention is to eliminate contamination of diamonds and simplify the process.

 The method consists in processing stable aqueous suspensions of ultrafine diamonds (UDD) at a pressure of 49-120 kPa at a temperature of 81-190 ° C for 5-15 minutes.

Example. The processing process is carried out at atmospheric pressure of 101.3 kPa and a corresponding temperature of 100 ° C. In this case, after 12 minutes of boiling and 2 hours of settling, a complete clarification of the UDD suspension with a concentration of 0.1% occurs. The boiling process is carried out in a glass vessel, while heat is produced

through the walls of the vessel from an electric heater. The boiling time is taken into account from the moment of stable boiling of the suspension. The processing efficiency is evaluated by clarification of the initial suspension after processing and settling for 2 hours. The effect of clarification is determined by the formula

E

/ w

Vc

100%,

ch1

Yu Yu

about

ate

where Vx is the volume of clarified liquid after 2 hours of settling,

Vc is the volume of suspension before treatment.

A temperature of 81-190 ° C helps to reduce the viscosity of dispersion water, increases the likelihood of collisions of solid particles, and reduces the amount of adsorbed polar groups that prevent particles from converging. All this leads to

reducing proppant pressure and ultimately accelerating the coagulation of the dispersed phase.

The temperature ranges of the UDD process are selected based on the simplicity and cost-effectiveness of the hardware design. Very low concentration aqueous suspensions (0.1%) have boiling points close to pure water, which are dependent on saturated vapor pressure. The simplest way is to lower the boiling point to 81 ° C, at

Claims (1)

SUMMARY OF THE INVENTION A method for separating ultrafine diamonds from stable aqueous suspensions, including coagulation of particles followed by precipitation of a solid phase, distinguished by a vacuum of 49 kPa, which is easy to create with a conventional fan. Lower vacuum values will require sophisticated equipment and reduce speed. pumping out. A treatment temperature of 190 ° C. corresponds to a pressure of 1200 kPa of saturated vapor. An increase in pressure above 1200 kPa is not recommended for industrial use, as It will require expensive equipment and complicate its operation. in that, in order to avoid contamination of diamonds and simplify the process, coagulation is carried out by boiling the suspension at 81-190 ° C and 49-1209 kPa for 5-15 minutes.