New research on complex reactions paves the way for more efficient, more sustainable aviation fuel

Two papers authored primarily by Dr. Ehsan Alborzi and Dr. Christopher Parks highlight research which will ultimately lead to improvements in the sustainability of aviation fuel, making it less damaging to jet engines in the long term.

jet engine
A jet engine

Researchers from the University of 91直播鈥檚 Energy Institute and Energy 2050 research group have published new exploratory insights into the behavior of metals in jet fuels, aiming to understand why they increase the rate of deposition 鈥 a process which can damage jet engines. The research, across two papers authored primarily by Dr. Ehsan Alborzi and Dr. Christopher Parks, will ultimately lead to improvements in the sustainability of aviation fuel, making it less damaging to jet engines in the long term.

The two papers, both published in Energy & Fuels, give insight into how and why certain metals increase the rate of autoxidation. Autoxidation is the process that leads to deposition, which can obstruct filters or fuel nozzles and results in the need to replace the blocked components more frequently. Research into the reasons why this reaction happens will aid the development of more efficient fuels and lead to more sustainable aviation as a whole.

The underlying interactions of the chemicals, metals and other compounds in fuel are not clearly understood 鈥 although we know that interference happens, there is no clear consensus on the precise nature of the interactions. To try and uncover the mysteries of the science, the group have used their research to begin identifying the exact nature of the reactions on a molecular level using quantum modelling and by testing different chemicals to compare results. Their laboratory experiments involved removing sulphur from the type of fuel known as Jet A-1 by treating it with activated carbon. It was found that the removal of sulphur and metals is able to significantly reduce the amount of observed deposition in Jet A-1 fuel.

In a continuation of this research, Dr Christopher Parks鈥檚 paper considers why metals affect fuels in the way they do. There is very limited research into the reasons behind the reaction, and though currently only theoretical, Dr Parks鈥檚 paper is one of the first to pose a more detailed theory, using computational modelling to explain the complex chemical reactions.

It鈥檚 hoped that their findings can be used to develop a more robust chemical model which can predict the rate of deposition in different types of fuel, ultimately finding the best fuel composition to use in different types of aviation engine. This most recent research marks significant progress in developing an accurate, detailed concept for future use.

Speaking about the research, Dr Parks said: 鈥淢aking aviation engines more efficient in the long run 鈥 with less servicing required and a reduction in frequency engines require new parts 鈥 is one of the many ways we can make flying more sustainable. Our research is just one step on a long path towards this goal, but as technology improves and we discover more about these little-understood chemical reactions, we hope to be able to find solid evidence which moves us closer towards better aviation fuel and engineering鈥.

You can read the full papers from the journal of Energy & Fuels at the links below:

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