I wanted to get the first post in, in case posting web links makes this post wait for approval.
First the links, then the pasted text so that people don't have to download the PDF and read it (a hassle for those on mobile devices

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https://www.bp.com/content/dam/bp-country/en_au/media/fuel-news/lifetime-fuel.pdf
Lifetime of Fuel.
This Fuel News provides a guideline on fuel storage in small containers from handy cans to fuel tanks of equipment.
https://www.bp.com/content/dam/bp-country/en_au/media/fuel-news/petrol-life-vehicle-tanks.pdf
Loss of light components – impact on octane.
The light components in petrol are lost first as the petrol sits in the fuel tanks.
Lifetime of Fuel.
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Fuel News
Lifetime of Fuel
This Fuel News provides a guideline on fuel storage in small containers from handy cans to
fuel tanks of equipment. It only covers quality issues and does not address safety and
legislative issues around storage. For safety and legislation refer to the latest issue of
Australian Standard 1940.
For domestic use fuel should be stored in steel cans of 2.5 litres, 5.0 litres or in 25 litre jerry
cans. Plastic containers of the approved type with the Australian Standards mark (AS2906-
1991) on the bottom can also be used.
PETROL AND TWO STROKE MIX – STORAGE IN CONTAINERS
Volatile fuels such as petrol and two stroke mixes will store for up to one year in a sealed
container. After that period the fuel may still be fit for purpose but problems such as hard
starting and spark plug fouling may occur due to lack of light components.
Once the seal is broken then lighter components evaporate and the storage life is best
assumed to be 6 months at ambient temperatures of 20 deg C and 3 months at ambient
temperatures of 30 degrees C or more.
PETROL AND TWO STROKE MIX – STORAGE IN EQUIPMENT
Petrol and two stroke mix in a fuel tank is exposed to the air and lighter components will
readily evaporate. This will result in the fuel becoming heavier and will cause hard starting
and spark plug fouling and rough running and misfire because the fuel will make the air fuel
mix richer in fuel, not all of this fuel can be completely burnt so it will leave sooty deposits in
the combustion chamber. For this reason any petrol and two stroke mix which has been in
the equipment tank for more than 2 weeks at 30 deg C or higher should be used with
caution. Volatile fuel that has been in equipment fuel tanks for more than two weeks should
be freshened with an equal volume of new fuel to restore volatile components and reduce
fouling issues.
Keeping equipment fuel tanks one third full stops moisture from getting into the fuel tank and
leaves room to add fuel to freshen the mix. Safety concerns need to be addressed when
keeping equipment tanks partially full while not in use.
BP fuels contain anti oxidants to stop fuel from deteriorating and forming gums, they contain
metal deactivators to prevent corrosion of copper and brass fuel system components and
detergents to clean fuel systems of deposits that interfere with performance.
BP Ultimate also contains a corrosion inhibitor to keep steel lines and components free of
rust and the higher octane provides protection against octane loss during storage.
DIESEL STORAGE
Diesel is not volatile and so does not suffer from starting issues. When stored under cover in
sealed containers it will last for 1 year but it can last longer. The main issue with diesel fuel in
storage is formation of gums and sediments that block filters, this is associated with
darkening in colour.
The main problem with diesel fuel in opened containers is that moisture from condensation
Will create a favorable environment for fungus and bacteria that degrade the fuel. The
Simple solution is regular treatment with a biocide. (Every 6 months)
For further information, please call the BP Lubricants and Fuel
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Loss of light components – impact on octane.
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Fuel News
Petrol Life in Vehicle Tanks
INTRODUCTION
Petrol is a mixture of many components with different properties that contribute to the
performance of the fuel. When petrol is left out in an open container exposed to the air it will
in time completely evaporate. As it evaporates the composition and properties will change
because different components evaporate at different rates. This is a normal feature of petrol
and the same process takes place in equipment fuel tanks. Where petrol is kept for more
than a week in equipment tanks then it can become stale and it is better to add fresh fuel
before using. Examples are classic, veteran and vintage cars and bikes, racing cars and bikes,
drag cars, boats, dual fuel vehicles, lawn mowers etc.
Generally petrol will last in equipment fuel tanks for about 3 weeks at a temperature of
around 20 deg C, after that it will perform better when fresh petrol is added.
Petrol will last in sealed containers for more than 6 months, while some breathing will take
place this is not enough to significantly affect product quality.
In underground storage tanks the rate of replenishment prevents the fuel from becoming stale.
HOW PETROL CHANGES IN EQUIPMENT TANKS
Loss of light components – impact on mixture
The light components in petrol are lost first as the petrol sits in the fuel tanks. These
components provide valuable octane benefits during cold start. Because they are
volatile they compose most of the air fuel mixture during cold start, if they are absent
then the mixture becomes lean resulting in higher temperatures, pre ignition,
detonation and piston damage. This is generally the cause of piston damage in high
revving engines used in boats and small engines such as chain saws etc.
The portion of the petrol that remains has a higher density and higher octane but this
is not available during cold start resulting in hard starting. Because the fuel
carburetors and injectors operate on a volume metering system the higher density
means that more fuel is introduced for a given volume of air and so the air fuel ratio is
fuel rich. If all the fuel cannot be burnt then it forms carbon deposits that will foul the
spark plug and cause the engine to stop and not start. This is generally the cause of
problems in classic cars where the engine stumbles and hesitates or cuts out.
Loss of light components – impact on octane
The light components in petrol are lost first as the petrol sits in the fuel tanks. These
components provide valuable octane benefits under high revving conditions such as
cold start acceleration and the loss of these components can result in detonation and
pre ignition at high speed resulting in piston damage.
The remaining components that have not evaporated are high octane and octane can
actually increase with time but this octane is not available for high revving
conditions.
Gum and Peroxide formation
With long storage periods, especially in the presence of hot weather or engine heat the
petrol can oxidize to form peroxides. These compounds can attack rubber and metal,
stripping away the liner on fuel lines or copper from fuel pumps and attacking rubber
hoses. These normally take a few months to form in sufficient quantity to cause a
problem. This process is faster if Ultra Violet light can get to the petrol.
IMPACT OF ENVIRONMENTAL LEGISLATION ON PETROL PROPERTIES
Volatility restrictions
Current State EPA legislation restricts petrol volatility in the summer period,
generally November to March. In that period petrol will have less volatile
components than at other times, generally the summer volatility of petrol is 30%
lower than the winter volatility which means that the loss of lighter components in
summer can be quicker. However this is not usually an issue due to higher
temperatures but can create problems in autumn if the summer fuel is held over. To
avoid this fresh fuel should always be used in the April May period.
MAINTAINING FUEL IN EQUIPMENT TANKS
It is not possible to provide a foolproof strategy for engines that are used only intermittently,
however the following principles help.
1) Always add some fresh fuel when the equipment is to be used if it has not been
used for more than a week. This will provide additional volatile components and
protect from cold start high revving detonation and piston damage.
2) Always keep the tank half full to stop water vapour from being sucked in and
condensing.
3) Use a fuel that contains anti oxidants, metal deactivators and corrosion inhibitors to
protect metal surfaces such as BP Ultimate
4) Using a hotter spark plug will help to reduce carbon deposits
EXAMPLE OF HOW PETROL CHANGES WHEN STORED IN FUEL TANK
Week 1 Week 2 Week 3 Week 4 Week 5
% volume lost
3 5 8 10 15
Octane RON
98.1 98.4 98.6 99 99.5
Equivalent airfuel ratio atconstant volume
13:1 12.8:1 12.7:1 12.5:1 12.3 :1
At the end of 5 weeks the fuel is 5% heavier and the fuel air mix will contain more fuel.
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I hope the above helps!
