ENVIRONMENTAL SCIENCE PUBLISHED FOR EVERYBODY ROUND THE EARTH
Industry and other economic sectors
Although energy production and transport are the most common sources of air pollution, industry and agriculture also emit significant amounts of pollutants into the air.
Metallurgy is the main industrial source of air pollution delivering primarily sulphur dioxide (SO2) and highly toxic heavy metal containing dust.
Steel works emit large amounts of carbon monoxide (CO), and aluminium works produce lots of fluorine which is very harmful to living organisms.
1. Steel works.
Factories producing materials for the building industry emit large amounts of dust to the atmosphere. Cement plants discharge chemically neutral dust in huge quantities. This dust can be transported large distances by the wind and affect areas far away from the cement plant itself.
Other types of factories in this sector include quarries, glass-works, aggregate-processing plants and ceramic plants. They tend to only have a local impact on air pollution.
2. Lime works. Source: www.freefoto.com
The chemical industry emits a wide variety of pollutants, the types dependant on the chemicals being manufactured. Common chemicals produced include nitrolime, phosphates, petrol, car oils and greases and artificial fibres.
During nitrolime (saltpetre) production, lots of dust containing saltpetre, urea, ammonia (NH3) and nitrogen oxides (NOx) are emitted into the air. Phosphate manufacture involves the use of sulphuric acid (H2SO4) and as a result, significant amounts of sulphur are emitted into the air. The process also causes emissions of fluorine and dust.
3. Chemical works. Source: www.freefoto.com
Refineries producing petrol, car oils and greases, emit mainly SO2 and hydrocarbons, but also smaller amounts of other very toxic substances such as ammonia, acetone, benzene, phenol, xylene, toluene and lead.
The basic raw materials in the production of artificial fibres are carbon disulphide (CS2) and hydrogen sulphide (H2S). Both these substances are also emitted into the air. Apart from being highly toxic, they also have a very unpleasant smell.
4. Oil refinery. Source: www.freefoto.com
5. Main anthropogenic sources of air pollution. Click on the image (56 K) to see the kinds of air pollution from each source. Authors: Pawel Jezioro, Anita Bokwa.
Other branches of industry worth mentioning are: 1) paper-mills which emit many malodorous substances and 2) machine manufactures who use plating and varnishing processes, these emit heavy metals and organic solvents.
6. Chipboard factory. Source: www.freefoto.com
Agriculture is also a source of air pollution. Large stores of manure emit gases such as ammonia (NH3). Artificial fertilizers and pesticides are often spread over fields from aeroplanes and this delivers very fine droplets of the chemicals into the air.
Another massive process is the incineration of rubbish. It is estimated that the amount of air pollution emitted by all rubbish burning plants is equal to the amount of air pollution generated during vegetation fires.
Erosion of the soil surface can generate large amounts of fine particles which can be transported large distances by the wind.
7. Crop spraying. Source: www.freefoto.com
Volatile Organic Compounds (VOC's) are chemical substances containing mainly carbon and hydrogen. Hydrocarbons are an important component of the VOC's. The most common VOC is methane (CH4) but this is not usually included in the sum of all the VOC's but is rather included as a greenhouse gas. Other important hydrocarbons include benzene, terpene, isoprene and benzopyrene. They are produced by both natural and anthropogenic sources. Total emissions from natural sources are much bigger than from anthropogenic ones, but in urban areas it is the anthropogenic one that dominate. The main sources are car exhaust gases and solvent use in industry. In 1995, 159,634 thousand tonnes of VOCs (excluding methane) were released globally to the atmosphere from the incomplete combustion of petrol by motor vehicles, the use of solvents in a variety of industrial and commercial processes and from chemical manufacturing and petroleum refining. Around 23% (36,782 thousand tonnes) of the global emission of VOC's came from Europe. VOC's contribute significantly to the formation of photochemical smog and some are carcinogenic.
8. Emissions of non-methane VOCs in 2000 in chosen European countries (for comparison: USA: solvent use: 4379 Gg, road transport: 4568 Gg).
Data source: http://webdab.emep.int, UNECE/EMEP emission database.
Read more about natural sources of VOC's in:
Lower Atmosphere - Basics - Unit 2 - Emissions
See also: Air pollutants classification
Climate in cities - Basics - Unit 1 - What is it?
Learn more about impact of air pollution to human health in:
Climate in cities - More - Unit 2 - Bioclimate
Air pollution and climate change are explained in detail in:
People changing climate - Basics - Unit 1
More about international efforts to reduce air pollution:
People changing climate - Basics - Unit 3 - International cooperation
You will learn more about negative effects of air pollution in:
Climate in cities - Basics - Unit 1 - Negative effects
About this page: Authors: Pawel Jezioro, Anita Bokwa - Jagiellonian University - Cracow / Poland
1. Scientific reviewer: Prof. Barbara Obrebska-Starkel - Jagiellonian University - Cracow / Poland - 2003-06-20
2. Scientific reviewer: Dr. Marek Nowosad - Maria Curie-Sklodowska University - Lublin / Poland - 2003-06-16
3. Scientific reviewer: Dr. Josef Brechler, Assoc. Prof. - Charles University - Prague / Czech Republic - 2003-10-03
last update: 2004-02-06