75517
Description
Mind Map by jakeogilvie, updated more than 1 year ago
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Created by jakeogilvie
over 11 years ago
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manufactors and use of chemicals
- Alkalis
- An alkali is a compound that dissolves to
give a solution with a pH higher than 7
- Before industrialisation in the
1700s, alkalis were still needed for
a number of uses:
- Converting oils and fats into soap
- Making glass
- Neutralising acidic soils
- Making chemicals that bind
natural dyes to cloth.
- Converting oils and fats into soap
- Traditional sources of alkalis to enable these processes included burnt
wood (potash) and stale urine (ammonia). Alkalis contain an important
property that allows them to neutralise acids.
- When this happens a salt is made.
acid + alkali → salt + water
- When this happens a salt is made.
acid + alkali → salt + water
- Reactions of alkalis- Higher tier
- Common examples of alkalis include soluble
hydroxides and carbonates. When each of these alkalis
reacts with an acid, there is a difference in the products
that are formed.
- When an alkaline hydroxide reacts
with an acid, salt and water are
formed. This is shown by the general
equation:
- Alkaline hydroxide + acid → salt + water
- For example
- Sodium hydroxide + hydrochloric acid → sodium
chloride + water
- When an alkaline carbonate reacts with an acid, salt and water are again formed
but there is also a third product, carbon dioxide
- Alkaline carbonate + acid → salt + water + carbon dioxide
- Alkaline carbonate + acid → salt + water + carbon dioxide
- When an alkaline carbonate reacts with an acid, salt and water are again formed
but there is also a third product, carbon dioxide
- Calcium carbonate + sulfuric acid → calcium sulfate + water +
carbon dioxide
- Note how the name of the salt is found - the first part of the name comes from
the metal in the alkali used, the second comes from the acid used.
- Note how the name of the salt is found - the first part of the name comes from
the metal in the alkali used, the second comes from the acid used.
- Sodium hydroxide + hydrochloric acid → sodium
chloride + water
- Alkaline hydroxide + acid → salt + water
- When an alkaline hydroxide reacts
with an acid, salt and water are
formed. This is shown by the general
equation:
- Common examples of alkalis include soluble
hydroxides and carbonates. When each of these alkalis
reacts with an acid, there is a difference in the products
that are formed.
- An alkali is a compound that dissolves to
give a solution with a pH higher than 7
- Making alkalis
- Due to increased industrialisation in the 1700s there was
a shortage of alkali. This led to the need for manufacture
on a large scale.
- The LeBlanc process
- This was a process invented to make alkali
sodium carbonate on a large scale. Sodium
chloride was mixed with sulfuric acid before being
heated with charcoal and limestone.
- The process itself was very polluting. It released huge volumes
of an acid gas (hydrogen chloride) into the air that wrecked the
surrounding land. It also produced large amounts of solid waste
that slowly released the toxic gas hydrogen sulfide. This gas
has a characteristic smell of rotten eggs.
- This was a process invented to make alkali
sodium carbonate on a large scale. Sodium
chloride was mixed with sulfuric acid before being
heated with charcoal and limestone.
- Due to increased industrialisation in the 1700s there was
a shortage of alkali. This led to the need for manufacture
on a large scale.
- Waste into useful chemicals
- The effect of pollution from this
industry became very extensive.
This pressured the government
into taking action.
- The industry was required to reduce the level of hydrogen chloride
gas released into the atmosphere. The first response was to
dissolve the hydrogen chloride in water, creating hydrochloric acid
that at the time had no use.
- A more useful method of disposal was discovered. Hydrogen chloride
could be oxidised to form chlorine, a useful chemical by mixing it with
oxygen and passing the mixture over a hot copper containing catalyst.
- The effect of pollution from this
industry became very extensive.
This pressured the government
into taking action.
- Water treatment
- Water that has been contaminated with certain
types of microorganisms can be very unsafe. It
can cause diseases such as typhoid, cholera
and dysentery.
- Treating water with chlorine kills microorganisms that may exist in domestic water supplies. Chlorination of water
began in the early part of the twentieth century, having a dramatic effect of reducing many waterborne diseases and
so increasing public health.
- There may be disadvantages of consuming water that has been treated with chlorine. When water is treated with
chlorine some disinfection byproducts called tirhalomethanes (THMs) can form. They form when chlorine reacts
with naturally occurring organic matter such as leaves.
- There is a notion that THMs can cause cancer, although no firm evidence has been found to support this theory.
- Water that has been contaminated with certain
types of microorganisms can be very unsafe. It
can cause diseases such as typhoid, cholera
and dysentery.
- Electrolysis of brine
- Brine is a solution of sodium chloride (NaCl) and water (H2O). The process of
- electrolysis involves using an electric current to bring about a chemical change and make new chemicals. The
electrolysis of brine is a large-scale process used to manufacture chlorine from salt. Two other useful chemicals
are obtained during the process, sodium hydroxide (NaOH) and hydrogen (H2).
- t is important that the chlorine and sodium hydroxide produced in the process are separated they react when they
come into contact with each other.
- t is important that the chlorine and sodium hydroxide produced in the process are separated they react when they
come into contact with each other.
- electrolysis involves using an electric current to bring about a chemical change and make new chemicals. The
electrolysis of brine is a large-scale process used to manufacture chlorine from salt. Two other useful chemicals
are obtained during the process, sodium hydroxide (NaOH) and hydrogen (H2).
- Uses in industry
- The products of the electrolysis of brine have important uses in industry. Some of these uses are in the table below,
but there are many more:
- Product of electrolysis of brine
- chlorine
- disinfectant and
purifier manufacture
of hydrochloric acid
making plastics
- disinfectant and
purifier manufacture
of hydrochloric acid
making plastics
- sodium hydroxide
- processing food
products removing
pollutants from water
manufacture of paper
- processing food
products removing
pollutants from water
manufacture of paper
- hydrogen
- manufacture of
hydrochloric acid
potential as a
pollution-free fuel
- manufacture of
hydrochloric acid
potential as a
pollution-free fuel
- chlorine
- Product of electrolysis of brine
- The products of the electrolysis of brine have important uses in industry. Some of these uses are in the table below,
but there are many more:
- Brine is a solution of sodium chloride (NaCl) and water (H2O). The process of
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