Using Heats of Combustion and Altering Fuels. Combustion With plenty of oxygen and compete combustion, burning of a hydrocarbon is… Hydrocarbon + Oxygen.

Using Heats of Combustionand

Altering Fuels

CombustionWith plenty of oxygen and compete

combustion , burning of a hydrocarbon is…Hydrocarbon + Oxygen gas Carbon dioxide + Water +

Thermal energy

A highly exothermic reaction.

Thermal Energy

Burning ethane:2 C2H6 + 7 O2 4 CO2 + 6 H2O + _?_ kJ thermal energy

Use table 3.6 p.250 to find out the molar heat of combustion for ethane…

…1560 kJ/mol (burning 1 mol of ethane releases that much energy)

How many moles of ethane are consumed in the above reaction?

How much thermal energy is released?

Ethane, U of Idaho

Thermal energy

• Can also be expressed as kJ/g (instead of kJ/mol)

• Useful in finding out how much energy is released when a certain mass of fuel is burned

Ethane fire in Saskatchewan. Ethane part of natural gas, stored in underground salt caves. Chem.queensu.ca

Sample problem

How much thermal energy would be produced by burning 12.0 g octane, C8H18?

How much thermal energy released by burning 1.0 g of octane (table 3.6)?

12.0 x 47.8 kJ = 574 kJ

Assignment

Heats of Combustion

p.252-253 #1-3

Altering Fuels

• Gasoline is only about 18% of crude oil

• Could it be possible to alter the structure of other components of crude oil so that more of a barrel of oil could be gasoline?

• Yes.

Cracking• 1913 chemists discovered that it was possible to

convert a large hydrocarbon (kerosene) into a smaller one (gasoline) by heating it to 600-700°C

• Cracking = process of converting large hydrocarbon molecules into smaller ones through the application of thermal energy and a catalyst.

Cracking• Today more than 1/3 of crude oil undergoes cracking• Process is improved with catalyst• Catalyst increases the speed of a reaction• Catalytic cracking is more efficient because it occurs at

lower temp (500°C instead of 700°C)

Problems with Pure Gasoline

• Gasoline composed of straight-chain alkanes (C6H14, C7H16, C8H18)

• Gasoline-air mixture compressed before ignited by spark plugs (in most engines)

• Compression can sometimes cause gas to ignite before spark, this is called “pinging” or “knocking” (piston bangs backwards against crankshaft at wrong time)

Octane

• Branched-chain alkanes less likely to combust during compression (don’t “ping”)

• Example:– Isooctane or 2,2,4-trimethylpentane

Can you see how the name relates to the structure?

Octane Rating

• Determined by testing the fuel’s burning efficiency under two conditions:– A free running engine, and– Engine under load (towing or passing)

• Results of these two tests are averaged to obtain octane rating

• The higher the octane rating, the better its antiknock characteristics (examples: 87, 89, 92)

Leaded Gasoline

• 1920s to 1970s, tetraethyl lead (C2H4)4Pb was added to increase octane rating

• It increased efficiency and added 3 points to octane rating

• However, lead particulates entered atmosphere and were found to be very harmful to the environment and human health

• Outlawed in 1970s

Cleaner Burning Fuels

• Alternative to lead that is octane-boosting are additives called oxygenated fuels

• These molecules contain oxygen as well as carbon and hydrogen

• Deliver less energy per gallon, but reduce exhaust-gas pollutants

• Also, often encourage more complete combustion producing lower emissions of air pollutions such as carbon monoxide (CO)

Example Oxygenated Fuels

Methanol• Also called methyl alcohol, CH3OH• Added to gas at distribution locations• Can be made from natural gas, coal, corn

or woodEthanol• Blend of 10% ethyl alcohol, CH3CH2OH

and 90% gasoline (called gasohol) can also be used in all modern engines

MTBE

• Methyl tertiary-butyl ether (MTBE) • Octane rating 116 • Introduced late 1970s• Most common fuel additive in 1990s• Late 1990s found that it was seeping from

underground storage into groundwater and drinking water

• Has unpleasant taste and smell, difficult to remove through filtration (it’s a POLAR molecule!!)

• Policies to reduce or ban MTBE are under consideration

Isomerization• = straight chain hydrocarbons

are converted to branched-chain hydrocarbons

• Process requires heating hydrocarbon vapor with a catalyst

• Both cracking and isomerizing are more expensive because fuel is needed to create this type of gasoline

Isomerization refinery run by Shell in Martinez, CA

Assignment

• Fuel for transportation p.257 #1-6

(Relates to alternative fuel project)