Addressing key challenges in materials engineering, design, integrity and development.
To understand the fundamental science which can deliver real-world solutions to pressing engineering challenges and develop tools to study, design, control and manipulate materials at the nanoscale, enhancing asset lifetime, performance and management.
- Corrosion impacts across all sectors from energy generation through to healthcare
- The impact of corrosion is significant for Economics, Health and Safety and the Environment
- Macro-scale systems are governed by nano-scale events that are currently difficult to monitor and control
- New robust approaches to design, specification and life prediction and integrity management required to give greater confidence and flexibility for Industry
- Responsible and sustainable application of Nanotechnology via understanding of nanoscale systems
The Centre represents a major step forward in corrosion minimisation for Shell, with the 2016 NACE International IMPACT report estimating the global cost of corrosion to be US$2.5 trillion. Corrosion has become a substantial obstacle in many industries, including energy, chemicals, nuclear and automotive with the cost equivalent to 3.4% of global GDP in 2013.
The Centre is led by Professor Mary Ryan and was established as a result of a synergistic, ongoing partnership between Shell's Materials and Corrosion R&D team, led by Dr. Lene Hviid, and Imperial’s Department of Materials. Professor Ryan also currently holds the Shell/RAEng Chair in Interfacial Nanoscience for Engineering Systems.