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A flight powered by cooking oil has taken place in the UK for the first time.
The RAF Voyager, the military equivalent of an Airbus A330, took off and landed from RAF Brize Norton in Oxfordshire on Wednesday.
The Royal Air Force (RAF) hopes sustainable aviation fuels will help it reach net-zero by 2040 and reduce its reliance on global supply chains.
The 90-minute flight over Oxfordshire was also the first time a military aircraft of such size has used a fully sustainable fuel.
Source BBC
A new approach to making jet fuel from food waste has the potential to massively reduce carbon emissions from flying, scientists say.
Currently, most of the food scraps that are used for energy around the world are converted into methane gas.
But researchers in the US have found a way of turning this waste into a type of paraffin that works in jet engines.
The authors of the new study say the fuel cuts greenhouse gas emissions by 165% compared to fossil energy.
This figure comes from the reduction in carbon emitted from airplanes plus the emissions that are avoided when food waste is diverted from landfill.
The aviation industry worldwide is facing some difficult decisions about how to combine increased demand for flying with the need to rapidly cut emissions from the sector.
In the US, airlines currently use around 21 billion gallons of jet fuel every year, with demand expected to double by the middle of the century. At the same time, they have committed to cutting CO2 by 50%.
With the development of battery-powered airplanes for long haul flights a distant prospect at this point, much attention has focussed on replacing existing jet fuel with a sustainable alternative.
In fact the UK government has just announced a £15m competition to encourage companies to develop jet fuel from household waste products.
Current methods of making green jet fuel are based on a similar approach to making biodiesel for cars and heavy goods vehicles.
It normally requires the use of virgin vegetable oils as well as waste fats, oil and grease to make the synthetic fuel.
At present, it is more economical to convert these oils and wastes into diesel as opposed to jet fuel – which requires an extra step in the process, driving up costs.
Now, researchers say that they have developed an alternative method able to turn food waste, animal manure and waste water into a competitive jet hydrocarbon.
Much of this material, termed wet-waste, is at present is turned into methane gas. However, the authors found a way of interrupting this process so it produced volatile fatty acids (VFA) instead of CH4.
The researchers were then able to use a form of catalytic conversion to upgrade the VFA to two different forms of sustainable paraffin.
When the two forms were combined they were able to blend 70% of the mixture with regular jet fuel, while still meeting the extremely strict quality criteria that Federal authorities impose on aircraft fuels.
“There’s exciting jet fuels that rely on burning trash and dry waste but this actually works for those wastes that have high water content, which we normally dispose of in landfill,” said Derek Vardon, a senior research engineer at the US National Renewable Energy Laboratory and the lead author on the study.
“Being able to show that you can take these volatile fatty acids, and that there’s a really elegant, simple way to turn it into jet fuel – that’s where I see the broader applicability of this one, and folks can continue to develop and refine it.”
The new fuel has a potentially significant impact on emissions as it not only limits the CO2 that comes from fossil sources used by the airlines, but it also gets rid of the methane that would bubble up from landfill if the waste food was just dumped.
Another major advantage is that this new fuel produces around 34% less soot than current standards. This is important because soot plays a key role in the formation of contrails from airplanes which adds a powerful warming effect to CO2 coming from the engines.
“That’s where we see the most potential for this technology is that you’re preventing methane emissions, and dramatically lowering the carbon footprint of jet fuel. And you just can’t do that with fossil fuels without getting into things like offsets,” said Derek Vardon.
The research team say they are planning to scale up the production of the new fuel and aim to have test flights with Southwest Airlines in 2023.
Many environmental groups are sceptical about attempts to develop sustainable aviation fuels, believing that it amounts to green-washing. They argue that people should just fly less.
“Sustainable aviation fuel is not a silver bullet,” Derek Vardon says.
“So we do want to definitely emphasise that reduction is the most important and most significant change you can make. But there’s also pragmatism and need for aviation solutions now, so that’s where we want to strike a balance as we need a basket of measures, to really start getting our carbon footprint down in a variety of sectors, including aviation.”
The study has been published in the Proceedings of the National Academy of Sciences (PNAS).
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By Matt McGrath
Environment correspondent
Source BBC
Toulouse, 21 September 2020 – Airbus has revealed three concepts for the world’s first zero-emission commercial aircraft which could enter service by 2035. These concepts each represent a different approach to achieving zero-emission flight, exploring various technology pathways and aerodynamic configurations in order to support the Company’s ambition of leading the way in the decarbonisation of the entire aviation industry.
All of these concepts rely on hydrogen as a primary power source – an option which Airbus believes holds exceptional promise as a clean aviation fuel and is likely to be a solution for aerospace and many other industries to meet their climate-neutral targets.
“This is a historic moment for the commercial aviation sector as a whole and we intend to play a leading role in the most important transition this industry has ever seen. The concepts we unveil today offer the world a glimpse of our ambition to drive a bold vision for the future of zero-emission flight,” said Guillaume Faury, Airbus CEO. “I strongly believe that the use of hydrogen – both in synthetic fuels and as a primary power source for commercial aircraft – has the potential to significantly reduce aviation’s climate impact.”
The three concepts – all codenamed “ZEROe” – for a first climate neutral zero-emission commercial aircraft include:
A turbofan design (120-200 passengers) with a range of 2,000+ nautical miles, capable of operating transcontinentally and powered by a modified gas-turbine engine running on hydrogen, rather than jet fuel, through combustion. The liquid hydrogen will be stored and distributed via tanks located behind the rear pressure bulkhead.
A turboprop design (up to 100 passengers) using a turboprop engine instead of a turbofan and also powered by hydrogen combustion in modified gas-turbine engines, which would be capable of traveling more than 1,000 nautical miles, making it a perfect option for short-haul trips.
A “blended-wing body” design (up to 200 passengers) concept in which the wings merge with the main body of the aircraft with a range similar to that of the turbofan concept. The exceptionally wide fuselage opens up multiple options for hydrogen storage and distribution, and for cabin layout.
“These concepts will help us explore and mature the design and layout of the world’s first climate-neutral, zero-emission commercial aircraft, which we aim to put into service by 2035,” said Guillaume Faury. “The transition to hydrogen, as the primary power source for these concept planes, will require decisive action from the entire aviation ecosystem. Together with the support from government and industrial partners we can rise up to this challenge to scale-up renewable energy and hydrogen for the sustainable future of the aviation industry.”
In order to tackle these challenges, airports will require significant hydrogen transport and refueling infrastructure to meet the needs of day-to-day operations. Support from governments will be key to meet these ambitious objectives with increased funding for research & technology, digitalisation, and mechanisms that encourage the use of sustainable fuels and the renewal of aircraft fleets to allow airlines to retire older, less environmentally friendly aircraft earlier.
Note to editors: To evaluate and validate these new concept aircraft and assess whether they could be matured into viable future products, Airbus will be focusing its efforts on a number of technological pathways. Grazia Vittadini, Chief Technology Officer, Jean-Brice Dumont, EVP Engineering and Glenn Llewellyn, VP Head of Zero Emission Aircraft, will reveal Airbus’ technology roadmap for 2020-2025 at 14:00 CEST, 21 September 2020 during a virtual event on Airbus social media channels.
Source: Airbus.com
