Description
What Is Calcium Hypochlorite?
A chemical compound, it has a Ca(ClO)₂ chemical formula. It is commonly known as bleaching powder, hypochlorous acid calcium salt, lime chloride, and chlorinated lime. It is an electrostatic or ionic compound containing a Ca²⁺ (calcium ion) and two ClO⁻ (hypochlorite ions).
To answer, what is calcium hypochlorite? It is a white, concentrated chemical available on the market in powder, crystal, or tablet form. The key use of it is to disinfect and sanitize swimming pool water and drinking water. Compared with other chlorine sources for water treatment, it is easier and safer to use.
Though it is stable at room temperature, it decomposes slowly in moist conditions, giving it a characteristic ‘chlorine’ smell. It is an active ingredient in bleaching powder, chlorinated lime, etc.
History of Calcium Hypochlorite
In the late 18th century, Charles Tennant and Charles Macintosh developed an industrial process for manufacturing lime chloride, i.e., Ca(ClO)₂. In 1799, it was patented. During World War I, doctors used it heavily to disinfect wounds and trenches.
Calcium Hypochlorite Structure
It is an inorganic complex having the chemical formula Ca(ClO)₂. it a white, slightly soluble solid. It is one of the major compounds of hypochlorites.
Its structure consists of a hypochlorite anion and a calcium cation. cation (Ca²⁺) coordinates to six O-atoms in a distorted octahedral geometry. hypochlorite anion (ClO⁻) is straight or linear in structure and is bonded to the calcium cation through oxygen atoms.
Ca(ClO)₂ structure is given below:
Ca(ClO)₂ Structure
Preparation of Calcium Hypochlorite
There are two ways to prepare Ca(ClO)₂.These are
1. Calcium process:
Industrially, It is prepared by treating lime water with chlorine gas. As lime water contains calcium, this process is generally known as the calcium process. The chemical reaction takes place as follows
2Ca(OH)₂ + 2Cl₂ → Ca(OCl)₂ + CaCl₂ + 2H₂O
The reaction is managed in stages to give different compositions, each with various calcium chloride concentrations, hypochlorite, and unconverted lime.
2. Sodium process:
In this process, slaked lime is treated with chlorine gas and sodium hydroxide to give a mixture of calcium hypochlorite Ca(ClO)₂, calcium chloride CaCl₂, water, and sodium chloride NaCl. The reaction takes place as follows
2Ca(OH)₂ + 3Cl₂ + 2NaOH → Ca(OCl)₂ + CaCl₂ + 2H₂O + 2NaCl
Calcium Hypochlorite Properties
The properties are classified into two classes. These are given below:
1. Physical properties:
Among these properties, physical properties define its appearance, chemical formula, nature, mass, and other characteristics. Some of them are given below:
The molecular formula of calcium hypochlorite is Ca(OCl)₂.
It exists in white-grey granular material form.
The molecular mass of Ca(ClO)₂ is 142.98 g/mol.
At 20°C, its density is 2.35 g/cm³.
The melting point of calcium hypochlorite is 100°C, and its boiling point is 175°C.
It is highly soluble in alcohol.
At room temperature, the solubility of this in water is 21 g/100 mL.
It is a non-flammable substance but will accelerate the rate of burning of combustible materials.
It has an odour of chlorine.
This is generally available as pellets, white powder, or flat plates.
The specific gravity of Ca(ClO)₂ in water is 1.21 g/cm³.
2. Chemical properties:
Among these properties, chemical properties define the nature of the compound toward different reagents. Some of them are given below:
It readily decomposes in water.
On heating, it releases chlorine and oxygen.
This is not combustible but acts as an oxidiser with flammable material.
It may react explosively with amines, ammonia, or organic sulphides.
As it readily accepts H⁺ ions, It is a strong base.
Dissolving calcium hypochlorite in water decomposes into hypochlorite ions and calcium ions. Furthermore, the hypochlorite ions accept H⁺ ions from water molecules and liberate OH⁻ ions.
ClO⁻ + H₂O → HClO + OH⁻
It can readily accept electrons. Hence, it acts as a powerful oxidising agent.
It reacts with hydrochloric acid and gives calcium chloride, chlorine, and water. The reaction follows as
4HCl + Ca(ClO)₂ → CaCl₂ + Cl₂ + H₂O
It reacts with carbon dioxide (CO₂) to form calcium carbonate (CaCO₃) and release chlorine.
2Ca(ClO)₂ + 2CO₂ → 2CaCO₃ + 2Cl₂ + O₂
Uses of Calcium Hypochlorite
The uses of these are to make drinking water safe and to disinfect large volumes of water. In swimming pools, it helps sanitising water bodies and kills germs. Some other uses of calcium hypochlorite are
In organic chemistry, it is highly useful due to its oxidising agent behaviour.
The uses of Ca(ClO)₂ are for bleaching of hemp, cotton, fibre, disinfection of surfaces, pulp and starch, and as a disinfectant for water treatment.
It is used in some bleaching solutions too.
is also used as a solid fire extinguisher.
Due to the presence of reactive chlorine, this is used to treat waste water and drinking water.
cleaves the keto acid and glycol bonds by obtaining disintegrated carboxylic acids or aldehydes.
used in the preparation of chloroform during haloform reactions.
also used in hard waters to prevent clogging up of filters or pipes.
used in disinfecting and deodorising in beverage, food processing, and sugar industries.
helps in refinishing and extra sheen in the carpet industry.
(known as bleaching powder) is also used for linen and bleaching cotton.
works as a mosquito controller by eradicating mosquito larvae in drains, gutters, ponds, etc.
Is Calcium Hypochlorite Dangerous?</h3>
Although there are many uses for Ca(ClO)₂, a question may still arise: is it dangerous? If you use it with care and precaution, it is not so dangerous. But using it without precautions may cause violent effects. Some of the side effects of using Ca(ClO)₂ are
In contact with water or moisture, it releases chlorine gas. It may lead to some health issues.
In the presence of an acid, it produces highly toxic chlorine gas fumes.
The moderate use of calcium hypochlorite solution can cause skin irritation. Sometimes it can cause serious skin burns.
It shows corrosive effects on moist tissues like eyes, upper respiratory tracts, etc.
Inhaling it may cause cough, respiratory problems, and dyspnea.
More concentrated solutions of Ca(ClO)₂ may cause significant esophageal and gastric burns.
Summary
To summarise, what is Ca(ClO)₂ is an important salt of hypochlorous acid and is prepared by treating lime slurry, Ca(OH)₂ with Cl₂. It is a stable compound and has the commercial name ‘perchloron.’ Sometimes, it is used in place of bleaching powder.
Because of its non-hygroscopic properties, it is superior to bleaching powder. It is available commercially but is most often generated in situ at the site of usage. It is a widely used inorganic compound.
This decomposes in contact with water and releases chlorine. It stays stable because calcium hypochlorite only decomposes in contact with water. Generally, bleaching powder is a mixture of many chlorine compounds which release nascent oxygen.
To buy this Chemical product, you can contact the leading professionals of Susyant business
Reviews
There are no reviews yet.