Calcium chloride

Calcium chloride is an inorganic compound, a salt with the chemical formula. It is a white crystalline solid at room temperature, and it is highly soluble in water. It can be created by neutralising hydrochloric acid with calcium hydroxide.
Calcium chloride is commonly encountered as a hydrated solid with generic formula, where n = 0, 1, 2, 4, and 6. These compounds are mainly used for de-icing and dust control. Because the anhydrous salt is hygroscopic and deliquescent, it is used as a desiccant.

History

Calcium chloride was apparently discovered in the 15th century but wasn't studied properly until the 18th century. It was historically called "fixed sal ammoniac" because it was synthesized during the distillation of ammonium chloride with lime and was nonvolatile ; in more modern times it was called "muriate of lime".

Uses

De-icing and freezing-point depression

By depressing the freezing point of water, calcium chloride is used to prevent ice formation and is used to de-ice. This application consumes the greatest amount of calcium chloride. Calcium chloride is relatively harmless to plants and soil. As a de-icing agent, it is much more effective at lower temperatures than sodium chloride. When distributed for this use, it usually takes the form of small, white spheres a few millimeters in diameter, called prills. Solutions of calcium chloride can prevent freezing at temperatures as low as −52 °C, making it ideal for filling agricultural implement tires as a liquid ballast, aiding traction in cold climates.
It is also used in domestic and industrial chemical air dehumidifiers.

Road surfacing

The second largest application of calcium chloride exploits its hygroscopic nature and the tackiness of its hydrates; calcium chloride is highly hygroscopic and its hydration is an exothermic process. A concentrated solution keeps a liquid layer on the surface of dirt roads, which suppresses the formation of dust. It keeps the finer dust particles on the road, providing a cushioning layer. If these are allowed to blow away, the large aggregate begins to shift around and the road breaks down. Using calcium chloride reduces the need for grading by as much as 50% and the need for fill-in materials as much as 80%.

Food

In the food industry, calcium chloride is frequently employed as a firming agent in canned vegetables, particularly for canned tomatoes and cucumber pickles. It is also used in firming soybean curds into tofu and in producing a caviar substitute from vegetable or fruit juices. It is also used to enhance the texture of various other products, such as whole apples, whole hot peppers, whole and sliced strawberries, diced tomatoes, and whole peaches.
The firming effect of calcium chloride can be attributed to several mechanisms:

Complexation, since calcium ions form coordination complexes with pectin, a polysaccharide found in the cell wall and middle lamella of plant tissues.
Membrane stabilization, since calcium ions contribute to the stabilization of the cell membrane.
Turgor pressure regulation, since calcium ions influence cell turgor pressure, which is the pressure exerted by the cell contents against the cell wall.

Calcium chloride's freezing-point depression properties are used to slow the freezing of the caramel in caramel-filled chocolate bars. Also, it is frequently added to sliced apples to maintain texture.
In brewing beer, calcium chloride is sometimes used to correct mineral deficiencies in the brewing water. It affects flavor and chemical reactions during the brewing process, and can also affect yeast function during fermentation.
In cheesemaking, calcium chloride is sometimes added to processed milk to restore the natural balance between calcium and protein in casein. It is added before the coagulant.
Calcium chloride is also commonly used as an "electrolyte" in sports drinks and other beverages; as a food additive used in conjunction with other inorganic salts it adds taste to bottled water.
The average intake of calcium chloride as food additives has been estimated to be 160–345 mg/day. Calcium chloride is permitted as a food additive in the European Union for use as a sequestrant and firming agent with the E number E509. It is considered as generally recognized as safe by the U.S. Food and Drug Administration. Its use in organic crop production is generally prohibited under the US National Organic Program.
The elemental calcium content in calcium chloride hexahydrate is approximately 18.2%. This means that for every gram of calcium chloride hexahydrate, there are about 182 milligrams of elemental calcium.
For anhydrous calcium chloride, the elemental calcium content is almost twice higher, that is around 36.1%.
Calcium chloride has a very salty taste and can cause mouth and throat irritation at high concentrations, so it is typically not the first choice for long-term oral supplementation. Calcium chloride is highly soluble in water – dissociating into calcium and chloride ions when dissolved. These ions are efficiently absorbed from the intestine. The dissolution of calcium chloride in water is exothermic; releasing energy as heat. If undissolved calcium chloride is ingested, this can lead to burns in the mouth, throat, esophagus, and stomach. Ingestion of large amounts of undissolved calcium chloride has been reported to result in burns, and rarely, necrosis of the stomach.
The extremely salty taste of calcium chloride is used to flavor pickles without increasing the food's sodium content.
Calcium chloride is used to prevent cork spot and bitter pit on apples by spraying on the tree during the late growing season.

Laboratory and related drying operations

s are frequently packed with calcium chloride. Kelp is dried with calcium chloride for use in producing sodium carbonate. Anhydrous calcium chloride has been approved by the FDA as a packaging aid to ensure dryness.
The hydrated salt can be dried for re-use but will dissolve in its own water of hydration if heated quickly and form a hard amalgamated solid when cooled.

Metal reduction flux

Similarly, is used as a flux and electrolyte in the FFC Cambridge electrolysis process for titanium production, where it ensures the proper exchange of calcium and oxygen ions between the electrodes.

Medical use

Calcium chloride infusions may be used as an intravenous therapy to prevent hypocalcemia.
Calcium chloride is a highly soluble calcium salt. Hexahydrate calcium chloride has solubility in water of 811 g/L at 25 °C. Calcium chloride when taken orally completely dissociates into calcium ions in the gastrointestinal tract, resulting in readily bioavailable calcium. The high concentration of calcium ions facilitates efficient absorption in the small intestine. However, the use of calcium chloride as a source of calcium taken orally is less common compared to other calcium salts because of potential adverse effects such as gastrointestinal irritation and discomfort.
When tasted, calcium chloride exhibits a distinctive bitter flavor alongside its salty taste. The bitterness is attributable to the calcium ions and their interaction with human taste receptors: certain members of the TAS2R family of bitter taste receptors respond to calcium ions; the bitter perception of calcium is thought to be a protective mechanism to avoid ingestion of toxic substances, as many poisonous compounds taste bitter. While chloride ions primarily contribute to saltiness, at higher concentrations, they can enhance the bitter sensation. The combination of calcium and chloride ions intensifies the overall bitterness. At lower concentrations, calcium chloride may taste predominantly salty. The salty taste arises from the electrolyte nature of the compound, similar to sodium chloride. As the concentration increases, the bitter taste becomes more pronounced: the increased presence of calcium ions enhances the activation of bitterness receptors.

Other applications

Calcium chloride is used in concrete mixes to accelerate the initial setting, but chloride ions lead to corrosion of steel rebar, so it should not be used in reinforced concrete. The anhydrous form of calcium chloride may also be used for this purpose and can provide a measure of the moisture in concrete.
Calcium chloride is included as an additive in plastics and in fire extinguishers, in blast furnaces as an additive to control scaffolding, and in fabric softener as a thinner.
The exothermic dissolution of calcium chloride is used in self-heating cans and heating pads.
Calcium chloride is used as a water hardener in the maintenance of hot tub water, as insufficiently hard water can lead to corrosion and foaming.
In the oil industry, calcium chloride is used to increase the density of solids-free brines. It is also used to provide inhibition of swelling clays in the water phase of invert emulsion drilling fluids.
Calcium chloride acts as flux material, decreasing the melting point, in the Davy process for the industrial production of sodium metal through the electrolysis of molten.
Calcium chloride is also used in the production of activated charcoal.
Calcium chloride can be used to precipitate fluoride ions from water as insoluble.
Calcium chloride is also an ingredient used in ceramic slipware. It suspends clay particles so that they float within the solution, making it easier to use in a variety of slipcasting techniques.
For watering plants to use as a fertilizer, a moderate concentration of calcium chloride is used to avoid potential toxicity: 5 to 10 mM is generally effective and safe for most plants—that is of anhydrous calcium chloride per liter of water or of calcium chloride hexahydrate per liter of water. Calcium chloride solution is used immediately after preparation to prevent potential alterations in its chemical composition. Besides that, calcium chloride is highly hygroscopic, meaning it readily absorbs moisture from the air. If the solution is left standing, it can absorb additional water vapor, leading to dilution and a decrease in the intended concentration. Prolonged standing may lead to the precipitation of calcium hydroxide or other insoluble calcium compounds, reducing the availability of calcium ions in the solution and reducing the effectiveness of the solution as a calcium source for plants. Nutrient solutions can become a medium for microbial growth if stored for extended periods. Microbial contamination may alter the composition of the solution and potentially introduce pathogens to the plants. When dissolved in water, calcium chloride can undergo hydrolysis, especially over time, which can lead to the formation of small amounts of hydrochloric acid and calcium hydroxide: +2 ⇌ +2. This reaction can lower the pH of the solution, making it more acidic. Acidic solutions may harm plant tissues and disrupt nutrient uptake.
Calcium chloride dihydrate dissolved in ethanol has been used as a sterilant for male animals. The solution is injected into the testes of the animal. Within one month, necrosis of testicular tissue results in sterilization.
Cocaine producers in Colombia import tons of calcium chloride to recover solvents that are on the INCB Red List and are more tightly controlled.