A NEW vibrating barrier has been developed by professors in Brighton to protect towns and cities from earthquakes.

The ‘ViBa’ barrier would be buried in the ground and experts predict it could absorb sufficient energy from ground motion to reduce between 40 and 80 per cent of the potentially-devastating seismic action.

The University of Brighton research has been led by Dr Pierfrancesco Cacciola, assistant head of the school of environment and technology.

He said: “Protecting cities from earthquakes is still a huge challenge that needs addressing, as recent disasters in Nepal, Japan, Haiti and Chile confirm.

“Although significant progress has been made in understanding seismic activity and developing building technology, we still don’t have a satisfactory way of protecting buildings on a large scale.”

Dr Cacciola and his team have spent three years researching different barriers using a ‘shaking table’ with multi-storey miniature buildings before coming up with their best design, the ViBa.

In an article in The Conversation, the website for news, comment and analysis, written by academics and researchers, Dr Cacciola explained: “Each ViBa can be designed to protect one or more buildings from an earthquake but also it forms part of a network of devices placed at strategic locations in order to protect entire cities.

“The ViBa is essentially a box containing a solid central mass held in place by springs. These allow the mass to move back and forth and absorb the vibrations created by seismic waves. The entire structure is connected to the foundations of buildings through the soil to absorb vibrations from them. The box’s position underground would depend on how deep the surrounding foundations went and could even be placed on the surface.”

His research has been published this week in the Proceedings of the Royal Society

Dr Cacciola said that so far they have only modelled how the ViBa would work using computers and prototypes in their laboratory.

He added: "To be deployed in the real world we would need to do a lot more experimenting to understand exactly how it would work and to make sure it didn’t produce any damaging side-effects on the surrounding buildings. We would also need to work with industry to work out how to build and install it in the most cost-effective way.

“But our latest research suggests the ViBa is a viable alternative strategy for protecting buildings from earthquakes. In the long term, it could lead to safer cities that are better equipped to deal with disasters and ultimately save lives.”