- Source: Barium chloride
Barium chloride is an inorganic compound with the formula BaCl2. It is one of the most common water-soluble salts of barium. Like most other water-soluble barium salts, it is a white powder, highly toxic, and imparts a yellow-green coloration to a flame. It is also hygroscopic, converting to the dihydrate BaCl2·2H2O, which are colourless crystals with a bitter salty taste. It has limited use in the laboratory and industry.
Preparation
On an industrial scale, barium chloride is prepared via a two step process from barite (barium sulfate). The first step requires high temperatures.
BaSO4 + 4 C → BaS + 4 CO
The second step requires reaction between barium sulfide and hydrogen chloride:
BaS + 2 HCl → BaCl2 + H2S
or between barium sulfide and calcium chloride:
BaS + CaCl2 → CaS + BaCl2
In place of HCl, chlorine can be used. Barium chloride is extracted out from the mixture with water. From water solutions of barium chloride, its dihydrate (BaCl2·2H2O) can be crystallized as colorless crystals.
Barium chloride can in principle be prepared by the reaction between barium hydroxide or barium carbonate with hydrogen chloride. These basic salts react with hydrochloric acid to give hydrated barium chloride.
Ba(OH)2 + 2 HCl → BaCl2 + 2 H2O
BaCO3 + 2 HCl → BaCl2 + H2O + CO2
Structure and properties
BaCl2 crystallizes in two forms (polymorphs). At room temperature, the compound is stable in the orthorhombic cotunnite (PbCl2) structure, whereas the cubic fluorite structure (CaF2) is stable between 925 and 963 °C. Both polymorphs accommodate the preference of the large Ba2+ ion for coordination numbers greater than six. The coordination of Ba2+ is 8 in the fluorite structure and 9 in the cotunnite structure. When cotunnite-structure BaCl2 is subjected to pressures of 7–10 GPa, it transforms to a third structure, a monoclinic post-cotunnite phase. The coordination number of Ba2+ increases from 9 to 10.
In aqueous solution BaCl2 behaves as a simple salt; in water it is a 1:2 electrolyte and the solution exhibits a neutral pH. Its solutions react with sulfate ion to produce a thick white solid precipitate of barium sulfate.
BaCl2 + Na2SO4 → 2 NaCl + BaSO4
This precipitation reaction is used in chlor-alkali plants to control the sulfate concentration in the feed brine for electrolysis.
Oxalate effects a similar reaction:
BaCl2 + Na2C2O4 → 2 NaCl + BaC2O4
When it is mixed with sodium hydroxide, it gives barium hydroxide, which is moderately soluble in water.
BaCl2 + 2 NaOH → 2 NaCl + Ba(OH)2
BaCl2·2H2O is stable in the air at room temperature, but loses one water of crystallization above 55 °C (131 °F), becoming BaCl2·H2O, and becomes anhydrous above 121 °C (250 °F). BaCl2·H2O may be formed by shaking the dihydrate with methanol.
BaCl2 readily forms eutectics with alkali metal chlorides.
Uses
Although inexpensive, barium chloride finds limited applications in the laboratory and industry.
Its main laboratory use is as a reagent for the gravimetric determination of sulfates. The sulfate compound being analyzed is dissolved in water and hydrochloric acid is added. When barium chloride solution is added, the sulfate present precipitates as barium sulfate, which is then filtered through ashless filter paper. The paper is burned off in a muffle furnace, the resulting barium sulfate is weighed, and the purity of the sulfate compound is thus calculated.
In industry, barium chloride is mainly used in the purification of brine solution in caustic chlorine plants and also in the manufacture of heat treatment salts, case hardening of steel. It is also used to make red pigments such as Lithol red and Red Lake C. Its toxicity limits its applicability.
Toxicity
Barium chloride, along with other water-soluble barium salts, is highly toxic. It irritates eyes and skin, causing redness and pain. It damages kidneys. Fatal dose of barium chloride for a human has been reported to be about 0.8-0.9 g. Systemic effects of acute barium chloride toxicity include abdominal pain, diarrhea, nausea, vomiting, cardiac arrhythmia, muscular paralysis, and death. The Ba2+ ions compete with the K+ ions, causing the muscle fibers to be electrically unexcitable, thus causing weakness and paralysis of the body. Sodium sulfate and magnesium sulfate are potential antidotes because they form barium sulfate BaSO4, which is relatively non-toxic because of its insolubility in water.
Barium chloride is not classified as a human carcinogen.
References
External links
International Chemical Safety Card 0614. (anhydrous)
International Chemical Safety Card 0615. (dihydrate)
Barium chloride's use in industry.
ChemSub Online: Barium chloride.
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