‘First of its kind’ creation by Coventry University academic to help space vessels travel longer distances

Dr Ashwath Pazhani stood in a lab at Coventry University and holding a piece of the new material he has created

Dr Ashwath Pazhani

University news

Friday 25 October 2024

Press contact

Press Team
press.mac@coventry.ac.uk


The future of space travel is seemingly changing by the day and a Coventry University academic is doing his bit to stay at the front of the space race.

Dr Ashwath Pazhani along with an international team of researchers have created a new material for storing the liquid hydrogen used to propel rockets into space by the likes of NASA.

Their new material is lighter than the current material used for liquid hydrogen storage tanks and means that more fuel can be stored or more payload carried at one time – a feat that Dr Pazhani describes as a “groundbreaking work that leapfrogs current research in the field”.

This all started as I was looking for the super lightweight and load-bearing material for external fuel tanks. The material in question has been used since 1993 to store liquid hydrogen and yet in this work we innovatively reinforced this material with nano graphene, creating a new composite out of that.

We have been able to reduce overall external tank weight by 2%, which is 19,400kg of total weight reduction and that can be utilised towards sending 19 tons of extra payload in every space flight. This means space vessels can travel longer distances as well as carrying more payload.

This is a significant innovation in liquid hydrogen storage and the material is the first of its kind. This achievement is groundbreaking in terms of sustainable energy solutions, aligning with global goals for cleaner and more efficient energy systems.

Dr Ashwath Pazhani, Lecturer in Engineering Design and Materials Specialism

Dr Pazhani hopes to see the material put to use soon and believes it could also be used in coming years for the sustainable storage of liquid and gaseous hydrogen in domestic household purposes, underground storage for fuel stations, and for transport systems including automotive, marine and aviation.

The research was carried out collaboratively with Professor Anthony Xavior from Vellore Institute of Technology in India, Dr Andre Batako from Liverpool John Moores University, and Dr Dirk Honecker at the Rutherford Appleton Laboratory.

As well as working with colleagues across the globe, Dr Pazhani also used expertise closer to home in the form of a Coventry University student he once taught. Alicia Patel studied her Master’s degree in Aerospace Engineering at Coventry University and was part of the materials testing team.

In addition to its technical merits, it has also played an important role in promoting inclusivity and diversity in STEM, actively encouraging women to participate and lead in scientific breakthroughs. Alicia’s contribution is a shining example of how student involvement can drive impactful research.

Dr Ashwath Pazhani

Read the full research paper here.