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TETRAOXOSULPHATE (VI) ACID: – INDUSTRIAL PREPARATION, REACTIONS AND USES.

Tetraoxosulphate (VI) Acid is a chemical compound with the formula H2SO4.

INDUSTRIAL PREPARATION OF TETRAOXOSULPHATE (VI) ACID – H2SO4

The industrial or commercial production of H2SO4 is through a process known as the contact process. The process involves:

  1. The oxidation of sulphur (IV) oxide by air to sulphur (VI) oxide using a catalyst such as vanadium (V) oxide, V2O5.

SO2 is produced by burning sulphur or by burning pyrite, FeS2 in air.

S + O2  → SO2

2SO2(g) + O2    →  2SO3(g)

  1. The absorption of sulphur (VI) oxide, SO3 in conc. H2SO4 to form a fuming liquid called ‘Oleum’- heptaoxosulphate (VI) acid.

H2SO4(aq)+ SO3(g)→ H2S2O7(aq)– oleum

  1. The oleum is diluted with correct amount of water to produce the conc. H2SO4.

H2S2O7(aq)+ H2O(l)→ 2H2SO4(aq)

Note: a direct absorption of SO3 in water is not done – the reaction is violently exothermic, the heat evolved will cause the acid to boil producing a mist of fine drops of di H2SO4 which will fill the environment.

PROPERTIES OF H2SO4

  1. As an acid – H2SO4 is dibasic and ionizes almost completely in solution, this makes it a strong acid. Due to it being dibasic, it forms two kinds of salts with alkalis.

2NaOH(aq)+ H2SO4(aq)→ Na2SO4(aq)+ 2H2O(l) and

NaOH(aq)+ H2SO4(aq)→ NaHSO4(aq)+ H2O(l)

  1. Action of dilute H2SO4 on metals Reactive metals would displace hydrogen from dilute tetraoxosulphate(VI) acid.

Zn(s)+ H2SO4(aq)→ ZnSO4(aq)+ H2(g)

Note: * Less reactive metals such as copper will not displace hydrogen from dilute acid. * Cold concentrated H2SO4 is not attacked by any metal in the complete absence of water.

  1. Action on trioxocarbonate (IV), Carbon (IV) oxide is liberated when H2SO4 is added onto a trioxocarbonate (IV).

Na2CO3(aq)+ H2SO4(aq)→ Na2SO4(aq)+ H2O(l)+ CO2(g) On a piece of marble, which has the chemical formula CaCO3, the reaction obtained is prematurely stopped due to the formation of the sparingly soluble salt, CaSO4, which forms a deposit on the surface of the marble.

  1. Conc. H2SO4 as an oxidizing agent When hot and concentrated, the acid accepts electrons from reducing agents such as Cu or Zn. It also oxidizes non-metals, such as carbon and sulphur, and is reduced to SO2 in the process.

S(s)+ 2H2SO4(aq)→ 2H2O(l)+ 3SO2(g)

C(s)+ 2H2SO4(aq)→ 2H2O(l)+ 2SO2(g)+ CO2(g)

The SO2 given off is detected using a strip of filter paper moistened with potassium heptaoxodichromate (VI) solution which turns orange to green – this is one of the tests for SO2 discussed earlier.

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