Hydrogen flight looks ready for take-off with new advances

Hydrogen flight looks ready for take-off with new advances

The possibility of hydrogen-powered flight means greater opportunities for fossil-free travel, and the technological advances to make this happen are moving fast. New studies from Chalmers University of Technology, in Sweden, show that almost all air travel within a 750-mile radius (1,200 km) could be made with hydrogen-powered aircraft by 2045, and with a novel heat exchanger currently in development, this range could be even further.

“If everything falls into place, the commercialization of hydrogen flight can go really fast now. As early as 2028, the first commercial hydrogen flights in Sweden could be in the air,” says Tomas Grönstedt, Professor at Chalmers University of Technology, and Director of the competence center TechForH2 at Chalmers.

Some of these technological advances can be seen inside the Chalmers wind tunnels, where researchers test airflow conditions in cutting edge facilities. Here, more energy-efficient engines are being developed that pave the way for safe and efficient hydrogen flight for heavy-duty vehicles.

Future of short-range hydrogen aviation for Nordics

For hydrogen-powered aviation, short and medium-range flights are the closest to being realized. A study recently published in the International Journal of Hydrogen Energy from Chalmers shows that hydrogen-powered flights have the potential to meet the needs of 97% of all intra-Nordic flight routes and 58% of the Nordic passenger volume by 2045.

For this study, the researchers assumed a maximum flight distance of 750 miles and the use of an existing aircraft model adapted for hydrogen power. The study, led by doctoral student Christian Svensson in Tomas Grönstedt’s research group, also showcased a new fuel tank that could hold enough fuel, was insulated enough to hold the super-cold liquid hydrogen and at the same time was lighter than today’s fossil-based fuel tank systems.

Novel heat exchangers for better fuel consumption

Heat exchangers are a vital part of hydrogen aviation, and they are a key part of the technological advancements taking place. To keep the fuel systems light weight, the hydrogen needs to be in liquid form. This means that the hydrogen is kept supercool in the aircraft, typically around -250°C.

By recovering heat from the hot exhausts of the jet engines, and by cooling the engines in strategic locations they become more efficient. To transfer the heat between the supercool hydrogen and the engine, novel types of heat exchangers are needed.

To meet this challenge, researchers at Chalmers have been working for several years to develop a completely new type of heat exchanger. The technology, which is now patent pending by partner GKN Aerospace, takes advantage of hydrogen’s low storage temperature to cool engine parts, and then uses waste heat from the exhaust gases to preheat the fuel several hundred degrees before it is injected into the combustion chamber.

“Every degree increase in temperature reduces fuel consumption and increases range. We were able to show that short- and medium-haul aircraft equipped with the new heat exchanger could reduce their fuel consumption by almost 8%. Considering that an aircraft engine is a mature and well-established technology, it is a very good result from a single component,” says Carlos Xisto, Associate Professor at the Division of Fluid Mechanics at Chalmers, and one of the authors of the study published in Applied Thermal Engineering.

The researchers also note that with more optimization, this type of heat exchanger technology in a regular Airbus A320 commercial aircraft could provide an improved range of up to 10%, or the equivalent of the Gothenburg-Berlin route (approximately 450 miles).

Hydrogen flight looks ready for take-off with new advances


Heat exchanger with exhaust gas preheater, developed according to the new concept. © GKN Aerospace

Sweden pledges big investments, despite challenges

The work to develop solutions for hydrogen aviation of the future is taking place on a broad front, with governments, universities and private companies working together. In Sweden, the innovation cluster, Swedish Hydrogen Development Center (SHDC), brings together key players, including industry leaders and experts from academia.

At a recent SHDC seminar, researchers from Chalmers presented their work and several commercial companies testified to major investments in hydrogen flights in the coming years.

While the technology is well advanced, the challenges lie rather in the large investments required, and in developing infrastructure, business models and partnerships to be able to produce, transport and store the hydrogen so that the transition to hydrogen flight is possible. A total transition is expected to require around 100 million tons of green hydrogen annually.

“There are industry expectations that 30%–40% of global aviation will be powered by hydrogen by 2050. It is likely that for a number of years to come, we will need a mix of aircraft that run on electricity, less environmentally harmful e-jet fuel and hydrogen. But every aircraft that can be powered by hydrogen from renewable energy reduces carbon dioxide emissions,” says Tomas Grönstedt.

Within TechForH2, there are good conditions to take on the hydrogen challenge, and with a budget of SEK 162 million (equivalent USD 15.5 million), the competence center can contribute to the development of a number of different research areas that link hydrogen and heavy transport.

More information:
Christian Svensson et al, Hydrogen fuel cell aircraft for the Nordic market, International Journal of Hydrogen Energy (2024). DOI: 10.1016/j.ijhydene.2024.02.382

Alexandre Capitao Patrao et al, Compact heat exchangers for hydrogen-fueled aero engine intercooling and recuperation, Applied Thermal Engineering (2024). DOI: 10.1016/j.applthermaleng.2024.122538

Provided by
Chalmers University of Technology

Citation:
Hydrogen flight looks ready for take-off with new advances (2024, July 11)

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