Important Terms
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Aviation Fuels: Jet Fuel, Aviation Gasoline (Avgas), Jet B, Biokerosene

Aviation fuels are fuels used for aircraft propulsion. A basic distinction is made between four different aviation fuels:

  • Jet fuel (Jet A-1, kerosene)
  • Kerosene-gasoline mixture (Jet B)
  • Aviation gasoline (avgas)
  • Biokerosene

Jet fuel (Jet A-1, kerosene)
Jet fuel (Jet A-1 type aviation fuel, also called JP-1A) is used globally in the turbine engines (jet engines, turboprops) in civil aviation. This is a carefully refined, light petroleum. The fuel type is kerosene. Jet A-1 has a flash point higher than 38°C and a freezing point of -47°C. Jet A is a similar kerosene fuel type that is normally available only in the U.S.

After refining, aviation fuel is mixed with extremely small amounts of several additives. Among other things, these additives prevent the fuel igniting in an uncontrolled manner, stop deposits from forming in the turbine, or the aviation fuel becoming electrically charged. There are also additives that prevent the growth of organisms in aviation fuel. Certain other additives ensure that the jet fuel does not freeze: The air temperature at cruising altitude is often below -30°C (-22°F), and aviation fuel freezing would have life-threatening consequences. NATO military aircraft use the same aircraft fuel – with even more special additives – under the name Jet Propellant 8 (JP-8).

Due to the very high demands of aircraft engines on jet fuel, this fuel is subject to very comprehensive, internationally standardized quality specifications.

Kerosene-gasoline mixture (Jet B)
This aviation fuel is used for military jets. This special blend (grade Jet B, also called JP-4) of about 65% gasoline and 35% kerosene is used in regions with particularly low temperatures, because it is more flammable with a flash point of 20°C, and its freezing point can be as low as -72°C (as compared to -47°C for Jet A-1). However, the engines must be suitable for the use of these aviation fuels.

Aviation gasoline (avgas)
Aviation gasoline is also called avgas for short. This aviation fuel is usually only used in the older piston engines of sports aircraft and small private aircraft that require leaded fuel with a high octane number. Avgas as leaded gasoline with 100 octane meets these requirements. Globally, only the avgas 100 LL variety is still available, a regular low-lead (LL) gasoline that is subject to the U.S. ASTM D910 standard for 100 LL. Only aircraft with a gasoline engine can be operated with avgas; turbine-powered aircraft or those with diesel engines require kerosene as a fuel (cf. jet fuel).

As avgas is expensive, there is an increasing shift to diesel fuel and kerosene. The high price results from the low production volume, long supply routes, and elaborate quality controls. The spread of mogas (motor gasoline) is also connected with the high price of avgas. Mogas is relatively cheaper and equivalent to service-station Super gasoline – plus a few additives. However, the spread of mogas has been slow as the necessary modification of aircraft engines can be very complex.

As a fossil fuel, jet fuel will become more expensive in the long term. Therefore, research on renewable alternatives has been ongoing for some time now, e.g. on biokerosene based on algae or biofuels from jatropha and camelina oil or “Solar Jet”. Biokerosene is a mixture of kerosene and biofuels that the aviation industry has been testing for several years in numerous test flights. 

Overview of aviation fuels

Designation Aviation fuel typeApplication
Jet A-1
(USA: Jet A)
Kerosene Civil aviation (jet engine, turboprop)
Jet B Kerosene-gasoline mixture Civil aviation, military (jet engine)
Avgas 100 LL


Super gasoline with additives
Sports aircraft (piston/gasoline engine)
BiokeroseneKerosene-biofuel mixture Civil aviation, also tests for military

As a rule, commercial airlines from Germany that transport passengers or goods are exempt from energy tax on both kerosene and jet fuel - but this exemption does not apply to private flying. The German tax exemption is based on EU law and various international agreements. At European level, however, under Article 14 of EU Directive 2003/96, Member States can limit the tax exemption to supplies of kerosene as well as to international and intra-EU transport.

Skytanking provides a full range of aviation fuelling services including into-plane fuelling, aviation fuel storage and hydrant management, investment in aviation fuel facilities at airports and engineering.

Status: December 2015
All information subject to change. Errors and omissions excepted.