L.O: To know how crude oil can be separated into fractions.

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Presentation transcript:

L.O: To know how crude oil can be separated into fractions

A. It has a boiling point of 170°C B. It has a boiling point of 60°C C. It has a boiling point of 290°C D. It is flammable E. It is highly flammable F. It is not flammable G. It is quite a runny liquid H. It is a very viscous liquid I. It is a viscous liquid J. It is a very reactive molecule K. It is quite reactive L. It is the least reactive hydrocarbon 1 2 3

In general, the bigger the molecule the higher the boiling point. Using the graph, estimate the size range of the molecules present in each fraction No. Carbon atoms   B.Pt ( o C) FractionBoiling Range ( o C) Number of carbons Fuel gasBelow 40 Petrol Kerosine Diesel

Fractional Distillation

Fuel gas Petrol / gasoline Naphtha Paraffin / Kerosine Diesel fuel Fuel and lubricating oil Bitumen Burned in the refinery to fuel the distillation process, sold as LPG, purified and sold as bottled camping gas Fuel for cars and motorcycles, also used to make chemicals. Used to make chemicals. Fuel for greenhouse heaters and jet engines, manufacture of chemicals. Fuel for lorries, trains. Fuel for the heating systems of large buildings, fuel for ships, lubricating oil. Roofing, and road surfaces. Uses of each fraction

1. Place about a 2 cm 3 depth of mineral fibre in the bottom of the side- arm test-tube. Add about 2 cm 3 of crude oil alternative to this, using the teat-pipette. 2. Clamp the side-arm flask over the bunsen burner. Heat the bottom of the side-arm test-tube gently, Watch the thermometer. 3. Collect the first fraction as it condenses from the equipment in the first test tube of the block. When the temperature reaches 100°C move the block to the next test tube and start collecting a new fraction. 4. Collect three further fractions, to give the fractions as follows: 100–150°C 151–200°C 201–250°C 251–300°C 5. Test the five fractions for viscosity (how easily do they pour?), colour, smell and flammablility, and colour of smoke. To test the smell, gently waft the smell towards you with your hand. To test for flammablility, pour onto a tin lid and light the fraction with a burning splint. The smoke colour can be carefully tested by holding white paper above the smoke, any deposits will appear on the paper.

Small hydrocarbon molecules are gases or transparent liquids. As the molecules get larger the colour becomes increasingly yellow through to the brown/black colour of bitumen used on roads and roof repairs. Increasing size of molecules 

Long molecules are very viscous (not runny) because the long chains get tangled In contrast, small molecules are more spherical and tend not to get tangled, this makes them runny Bigger molecules Higher viscosity “Treacly” Smaller molecules Lower viscosity “Runny”

Longer chain hydrocarbons are more difficult to ignite Longer chain hydrocarbons produce smokier flames as more incomplete combustion is occuring

Orange Bromine water turns colourless with Un saturated hydrocarbons Bromine water stays orange in saturated hydrocarbons

Annotate your fractional distillation diagram, you must include an explanation of what is happening and the uses of each fraction (use the next slide to help with this)

Different fractions will vary in their ability to ignite, can you correctly match the substances? SubstanceIgnition temperature Kerosine<23 Petrol Fuel Oil

Here are the viscosities of 5 hydrocarbons. The higher the value the less runny the hydrocarbon is. Draw arrows joining the hydrocarbon with the appropriate value. HydrocarbonViscosity (cP) Pentane - C 5 H Hexane - C 6 H Heptane - C 7 H Octane - C 8 H Decane - C 10 H

Using viscosity data for crude oil from different areas of the world, arrange the oils putting those with the smallest molecules first. CrudeOrderViscosity (cSt) Saudi Arabia47.7 UK (Brent)6.13 Norway (Gulifaks)16.5 Alaskan31.5 Malaysian