Lesson Notes By Weeks and Term - Senior Secondary School 1

COAL AND FUEL GASES

Get it on Google Play
Get it on the Apple App Store
  1. Home
  2. Lesson Notes By Weeks and Term
  3. Senior Secondary School 1
  4. COAL AND FUEL GASES

SUBJECT: CHEMISTRY

CLASS:� SS 1

DATE:

TERM: 3rd TERM

REFERENCES

  • New School Chemistry for Senior Secondary Schools by�Osei Yaw Ababio
  • New�System�Chemistry�for�Senior�Secondary Schools by Tan Yan Ton el al
  • WAEC past Questions and Answers
  • UTME past Questions and Answers


WEEK SIX

TOPIC: COAL AND FUEL GASES

CONTENT

  • Coal.
  • Fuel gases/Gasification of coke.

COAL

Coal is an impure form of carbon. Coal is a complex mixture of compounds composed mainly of carbon, hydrogen and oxygen with small amounts of nitrogen, sulphur and phosphorus as impurities.

Carbonization of coal.

Coal was formed by the gradual decomposition of plant vegetation under pressure and in the absence of air. Carbon (iv) oxide, methane, and steam were liberated, leaving behind a material that contained a very high percentage of carbon.

During this process of carbonization, the vegetable material was converted in stages into peat. They gradually passed through several stages: Peat � � � � � � � � lignite � � � � � � � bituminous � � � � � � � � anthracite.

Types of Coal

There are 4 different types of coal namely:

(1) Peat-like coal: It contains about 60% of carbon by mass.

(2) Lignite coal (brown coal): It contains about 67% of carbon by mass.

(3) Anthracite coal (or hard coal): It is tough and hard. It contains about 94% of carbon by mass. Impurities present may include nitrogen, sulphur and phosphorus. Anthracite is the last stage of coal.

(4) Bituminous (soft) coal: These are use every day at home. It contains about 88% by mass of carbon.

Destructive Distillation of Coal

The process by which a wide variety of substances can be obtained from coal is known as the destructive distillation of coal.

During the process, coal is heated to a very high temperature in the absence of air so that all the volatile components distil over.

Coal� � � � � � Coke � +� Ammoniacal liquor� + Coal tar� + Coal gas.

Coal decomposes to yield a number of products such as:

Solid product e.g coke: It is the non-volatile residue left behind after destructive distillation.

Uses of coke

(i) Coke is mainly used as a fuel.

(ii) It is a very important industrial reducing agent and is used in the extraction of metals, especially iron, from their ores.

(iii) It is also used in the production of gaseous fuels, like water gas and producer gas.

(iv) It is used for the manufacture of graphite, calcium carbide, silicon carbide and carbon (iv) sulphide.

  1. Liquid product: It include: Ammoniacal liquor and coal tar.

(a) Ammoniacal liquor: is a solution of NH3 in water.

(b) Coal tar: This is the thick, viscous substance from which more than a hundred other products are derived. Products obtained by fractional distillation of coal tar include toluene, phenol, benzene, naphthalene and anthracene which are used in the synthesis of important commercial product like dyes, paints, insecticides, drugs, plastics and explosives.

  1. Gaseous product e.g coal gas: It consists mainly of about 50% hydrogen, 30% methane, 10% carbon (ii) oxide with small amounts of gaseous impurities such as SO2, CO2, ethane, N2, hydrogen sulphide, carbon (iv) sulphide and hydrogen cyanide.

Distillates of Coal

Uses

1.Ammoniacal liquor

To produce (NH4)2SO4 for fertilizer.

2.Coal tar

To produce useful chemicals such as disinfectants and perfumes

3.Coal gas

Used as industrial fuel.

Uses of coal

  1. Coal is used mainly as fuel to generate power for steam engines, factories and electrical plants.
  2. It is also used for making various chemicals.

EVALUATION

  1. List the types of coal.
  2. List the products of the destructive distillation of coal and state the use of each product

FUEL GASES/GASIFICATION OF COKE

There are 3 types of fuel gases.

Producer gas: Producer gas is a mixture of nitrogen and carbon (ii) oxide. It is prepared by passing a stream of air through red hot coke.

2C(s) � +� O2(g) � +� N2(g) � � � � � 2CO(g) � � + � � N2(g) � +� � Heat

Producer gas

Water gas: Water gas is a mixture of hydrogen and carbon (ii) oxide gas. It is prepared by passing steam over white hot coke.

H2O(g)� � +� � � � C(s) � � � � � � � � CO(g)� � � + � � � H2(g)

Steam � � � � white hot coke � � � � � � � Water gas

Water gas is then mixed with excess steam, and the mixture passed over iron (iii) oxide catalyst at 4500C.The carbon (ii) oxide decomposes the steam and the product are hydrogen and carbon (iv) oxide.

CO(g) � + � H2(g)� � � +� � H2O(g)� � � � � � CO2(g) � +� � 2H2(g)

Caustic soda or water is used to absorbed carbon (iv) oxide from the mixture. Ammoniacal copper (i) chloride can be used to remove unreacted carbon (ii) oxide. The final product is hydrogen.

Differences between Producer Gas and Water Gas

(1) Producer gas has a low calorific value while water gas has a high calorific value (i.e producer gas has a lower heating ability than water gas.

(2) Water gas consists of equal volumes of hydrogen� and carbon (ii) oxide both of which are combustible whereas producer gas consists of 33% combustible CO and 67% non-combustible N2.

Note: Industrially, producer gas and water gas can be made in the same plant, by passing air and steam through heated coke at a temperature above 10000C.

Producer gas is inexpensive and is widely used in heating furnaces and firing of retorts (in the manufacture of Zn and coal gas) and limekilns. It is also a source of nitrogen for the manufacture of NH3 (Haber process).

Water gas is an important industrial fuel and is used in the manufacture of hydrogen and other organic compounds e.g. methanol and butanol.

  1. Synthetic gas: It is a mixture of hydrogen and carbon (ii) oxide gas. It is prepared by mixing steam with methane (obtained as natural gas) and passing them over Nickel catalyst at about 8000C.

CH4(g) � � +� � � H2O(g) � � � � � � CO(g) � + � 3H2(g)

Synthetic gas is not a major source of air pollution because sulphur is removed in the gasification process/it does not contain sulphur or sulphur compounds.

EVALUATION

  1. List the three types of fuel gases.
  2. What can be used to absorb carbon (iv) oxide from a water gas mixture?
  3. What can be used to remove unreacted carbon (ii) oxide from a water gas mixture?

READING ASSIGNMENT

New school chemistry for senior secondary school by O.Y Ababio page 123-127

WEEKEND ASSIGNMENT

  1. One of these is a reaction of charcoal (a) C(s) + O2(g) � � � � � � CO2(g)

(b) CO2(g) + C(s) � � � � � � � CO(g)� (c) 2CO(g) + O2(g)� � � � � � � 2CO2(g)

(d) CO2(g) + 2CO(g) � � � � � 2CO(g)

  1. The liquid product of the destructive distillation of coal is

(a) ammoniacal liquor � (b) coal fume � (c) dyestuff � (d) coal plasma.

  1. Producer gas is a gas with a low heating power because it contains more

(a) CO2 than O2 (b) nitrogen than carbon (ii) oxide (c) CO2 than nitrogen (d) nitrogen than CO2.

  1. Which of the following compounds would form a solution on exposure to air?

(a) CuSO4.5H2O (b) FeCl3 (c) NaNO3 (d) Na2SO4.10H2O.

  1. Which of the following compounds is insoluble in water? (a) CaCl2 (b) NaCl (c) Na2SO4 (d) PbSO4.

THEORY

  1. Name four products of the destructive distillation of coal and state one use of each.
  2. List two differences between producer gas and water gas.





� Lesson Notes All Rights Reserved 2023