{"id":236711,"date":"2023-09-03T20:53:00","date_gmt":"2023-09-03T20:53:00","guid":{"rendered":"https:\/\/automotobuzz.com\/?p=236711"},"modified":"2023-09-03T20:53:00","modified_gmt":"2023-09-03T20:53:00","slug":"explained-octane-cetane-numbers-fuel-myths-mixing-different-fuels","status":"publish","type":"post","link":"https:\/\/automotobuzz.com\/news-features\/explained-octane-cetane-numbers-fuel-myths-mixing-different-fuels\/","title":{"rendered":"Explained: Octane & cetane numbers, fuel myths & mixing different fuels"},"content":{"rendered":"

Premium is the better gas in terms of octane levels, but that doesn\u2019t mean it\u2019s better for your car. Your owner\u2019s manual will tell you if it\u2019s required or not.<\/h2>\n

BHPian NomadSK<\/strong> recently shared this with other enthusiasts.<\/p>\n

After huffing and puffing through all the pages, thought of giving technical insight and clearing some air, regarding:<\/p>\n

Octane Number, Cetane Number, Fuel Myths, Mixing Different Fuels<\/h2>\n

Octane number, also called Antiknock Rating, measure of the ability of a fuel to resist knocking when ignited in a mixture with air in the cylinder of an ICE. The octane number is determined by comparing the knock intensity of the fuel with that of blends of two reference fuels: iso-octane, which resists knocking, and heptane, which knocks readily. The octane number is the percentage by volume of iso-octane in the iso-octane\u2013heptane mixture.<\/p>\n

Iso-octane has an octane number of 100 and is high in its resistance to knocking; n-heptane is quite low (with an octane number of 0) in its resistance to knocking. Blends of n-heptane and isooctane thus serve as a reference system for gasoline and provide a wide range of quality used as an antiknock scale. The exact blend, which matches identically the antiknock resistance of the fuel under test, is found, and the percentage of isooctane in that blend is termed the octane number of the gasoline. For example, gasoline with a knocking ability which matches that of a blend of 90 percent iso-octane and 10 percent n-heptane has an octane number of 90.<\/p>\n

In general, it was found that higher cracking temperatures and lower pressures produced higher octane gasoline, but unfortunately more gas, cracked residual, and coke were formed at the expense of the volume of cracked gasoline. I will leave it here, else will deep dive into the refining process.<\/p>\n

If this is a bit clear, let\u2019s go into a bit of chemistry, for those who are interested in the know-how:<\/h2>\n

Of the 18 isomers of normal octane (C8H18), octane gets its name from the 2,2,4-Trimethylpentane compound, which is highly resistant to auto-ignition. This iso-octane has been assigned the reference value of 100 for testing purposes. The extremely unstable normal heptane (C7H16) molecule is the 0-octane reference fuel.<\/p>\n

Octane ratings are measures of \u201chow stable is fuel\u201d at different compressions\/pressure. These ratings are based on the pressure at which a fuel will spontaneously combust (auto-ignite) in a testing engine. The octane number is actually the simple average of two different octane rating methods\u2014motor octane number (MON) and research octane rating (RON). The higher the octane number, the more stable the fuel. It is a standard measure of a fuel’s ability to withstand compression in an internal combustion engine without detonating. The difference between the research and motor octane is an indicator of the sensitivity of the performance of the fuel to the two types of driving conditions and is known as the \u2018\u2018sensitivity\u2019\u2019 of the fuel.<\/p>\n

RON-<\/strong> The research octane number indicates the combustibility of engine fuel at low speeds and temperatures. It\u2019s designed to reflect the behavior of fuel under idling conditions and during normal acceleration. The higher the RON rating, the more compression it can withstand in a spark-ignition engine before igniting.<\/p>\n

MON-<\/strong> The motor octane number denotes how a fuel behaves at full-throttle range (hard acceleration, pedal to metal types). The rating is calculated at high speeds and temperatures designed to simulate fuel combustion on expressways and highways. When the MON rating is too low, the air\/fuel mixture doesn\u2019t combust properly in the engine and creates a pinging sound known as \u201cknocking”.<\/p>\n

Altitude affects several properties of gasoline, the most important of which are losses by evaporation and octane requirement.<\/p>\n

Effects of Variables on Octane Requirements as per ASTM<\/h2>\n