Production & Use of Fertilisers (AQA GCSE Chemistry)

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Stewart

Last updated

11 July 2024

Role of NPK fertilisers in plant growth

Compounds containing nitrogen, potassium and phosphorus are used as fertilisers to increase crop yields
NPK fertilisers are formulations containing appropriate ratios of all three elements
From these three essential elements:
- Nitrogen promotes healthy leaves,
- Potassium promotes growth, healthy fruit and flowers
- Phosphorus promotes healthy roots
A distinct advantage of artificial fertilisers is that they can be designed for specific needs whereas in natural fertilizers, such seaweed or manure, the proportions of elements cannot be controlled
Fertiliser compounds contain the following water soluble ions:
- Ammonium ions, NH₄⁺ and nitrate ions, NO₃^–, which are sources of soluble nitrogen
- Phosphate ions, PO₄^3-, which are a source of soluble phosphorus
Most common potassium compounds dissolve in water to produce potassium ions, K⁺

Name	Formula	Essential element
Ammonium nitrate	NH₄NO₃	Nitrogen
Calcium phosphate	Ca₃PO₄	Phosphorus
Potassium nitrate	KNO₃	Potassium, nitrogen
Potassium sulfate	K₂SO₄	Potassium

Examiner Tip

Fertilisers must be water soluble so the nutrients they provide can be effectively absorbed and transported by the plant.

Use of ammonia in manufacturing fertilisers

Ammonia is an alkaline substance and neutralises acids producing a salt and water
The salt it produces contains the ammonium ion, NH₄⁺, which is a component of several fertilisers
Ammonia also undergoes oxidation to produce nitric acid, HNO₃
Nitric acid is used as the source of the nitrate ion, NO₃^–, which is another important ion found in fertilisers
Ammonium nitrate, a fertiliser and one of the most important ammonium salts, is made by reacting ammonia with nitric acid:

NH₃ (aq) + HNO₃ (aq) → NH₄NO₃(aq)

It is prepared on large scale industrial proportions but can also be prepared in the laboratory using a different method
In the laboratory it is prepared by titrating ammonia with sulfuric acid:

2NH₃(aq) + H₂SO₄(aq) → (NH₄)₂SO₄(aq)

Comparing lab and industrial production of ammonium sulfate

	Laboratory	Industrial
Equipment	Simple equipment needed, prepared using titration apparatus	Hugely expensive and complex
Reactant concentration	Low concentrations, less heat released	High concentrations, very exothermic reaction
Separation of product	Crystallisation is used, slow process	The heat produced is used to evaporaate water from the reaction mixture to make a very concentrated ammonium nitrate product

Examiner Tip

Notice that when writing ammonia solution as NH₃ (aq), water does not appear to be a product of the neutralisation reaction. However, ammonia solution may also be written as, NH₄OH (aq), ammonium hydroxide, in which case water is produced:

NH₄OH (aq) + HNO₃ (aq) → NH₄NO₃(aq) + H₂O (l)

Either formula may be used to show the reactions.

Use of phosphate rock

The Earth’s crust also contains useful minerals which are useful raw materials for making fertilisers
Phosphate rocks are mined and then treated to produce various water soluble compounds that can be used in fertilisers
The rock itself is insoluble in water so it is usually reacted with:
- Nitric acid - phosphoric acid and calcium nitrate are produced
  - The phosphoric acid is neutralised with ammonia forming ammonium phosphate
- Sulfuric acid - a mixture of calcium phosphate and calcium sulfate is produced
  - This mixture is known as single superphosphate
- Phosphoric acid - calcium phosphate is produced
  - This is known as triple superphosphate
Potassium chloride and potassium sulfate are also mined
- They are easier to extract as potassium compounds are water soluble

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