Substances such as metals, their sulphides, and other halides, for example, cannot be easily mixed with the dispersion medium to form a colloidal solution in this manner. To create their colloidal solutions, they employ several unique techniques.
Sols that are lyophobic are referred to as lyophobic sols. All colloidal solutions, regardless of their composition, have a charge attached to them. The stability of colloidal sols is determined by the charge existing on them. If we can remove the charge that exists on the sol, the particles become closer to one another and consolidate to form aggregates, which then precipitate under the influence of gravity. This process of particle buildup and settling down is referred to as coagulation or precipitation in more technical terms.
Techniques of Coagulation
It is possible to carry out the coagulation process in several different methods:
- By electrophoresis: In this process, the colloidal particles are compelled to travel towards the oppositely charged particles, after which they are ejected and collected at the bottom of a column.
- By mixing two oppositely charged sols: When equal amounts of oppositely charged particles are mixed, the charges of the particles cancel each other out and the particles precipitate.
- By boiling: When we boil a sol, the molecules of the dispersion medium begin to collide with one another and with the surface, causing the adsorption layer to become disrupted. As a result, the charge on the sol is reduced, and the particles begin to settle down.
- Using persistent dialysis: When using persistent dialysis, sections of the electrolytes are fully eliminated, causing the sol to lose its stability and eventually coagulate.
Regulation of lyophilic solution stability:
- The effect of charge on colloidal particles
- The colloidal particles are dissolved in water.
When the two criteria listed above are eliminated, only lyophilic sols are capable of coagulation. This can be accomplished by adding an electrolyte or a suitable solvent to the mixture.
Lyophilic colloid coagulation:
- Lyophobic sols are less stable than lyophilic colloid coagulation. As a result, they coagulate more easily.
- The only reason for the stability of lyophobic sol is the charge on the colloidal particles. The only electrolyte can be used to eliminate this issue.
Conclusion
By altering the electrostatic charges of particles suspended in water, coagulation is a chemical water treatment method that can be used to remove solids from water and improve water quality. This procedure involves the introduction of tiny, highly charged molecules into the water to destabilise the charges on particles, colloids, or greasy materials suspended in the water.
Mechanical clot detection, viscosity-based detection systems, optical clot detection, and nephelometry are the primary approaches that are used in this procedure (4). Fibrin is formed during the clotting response and can be detected using mechanical clot detection systems, according to the theory behind the technology used.
When coagulation or clotting occurs in the blood, it occurs quickly after the damage to the blood vessels. Two procedures take place. Platelets transform, and the subendothelial tissue factor is exposed to plasma Factor VII, which eventually results in the formation of fibrin. When platelets plug an injury, this is known as primary hemostasis. Secondary hemostasis occurs as a result of the interaction of clotting factors and fibrin factors in the platelet plug.
Yoghurt is formed when milk proteins coagulate and thicken a liquid combination. Blood platelets coagulate blood, allowing it to be sealed around a wound. Pectin is responsible for the gelling (coagulation) of jam. As the gravy cools, it begins to coagulate.