Student research examines how to generate energy during earthquakes

Posted by ap507 at Aug 01, 2016 10:09 AM |
University of Leicester physics students explore how energy from earthquakes could be put to use in cities such as San Francisco

Issued by University of Leicester Press Office on 1 August 2016

Physics students from the University of Leicester have explored a feasible way to harness the power of earthquakes during a disaster in order to keep vital systems powered.

By using a magnet inside a coil during the shaking of tectonic plates that occurs during an earthquake, the students suggest that the magnetic field created by the shaking could generate a current which could potentially be harnessed.

The students presented their findings in a short article for the Journal of Physics Special Topics, a peer-reviewed student journal run by the University’s Department of Physics and Astronomy. The student-run journal is designed to give students practical experience of writing, editing, publishing and reviewing scientific papers.

Research assistant Elliott Spender from the Department of Physics and Astronomy said: "Whilst much more research would be needed to fully apply the idea, the purpose of the paper was to illustrate that there are methods of adapting to events that are usually considered destructive, such as an earthquake, to provide something constructive."

The student study initially examined how much energy could have been generated by the Kobe earthquake of 1995 in Japan, which measured 7.2 on the Richter scale.

They then applied their model to San Francisco, examining the Millennium Tower, the tallest residential building in the city. The tower has a surface area of 1,300m2 meaning that if the foundations of the building were built using generator blocks then approximately 770W would be generated in an earthquake of magnitude 7.2. 

The students conclude that it may be possible to generate a useful amount of electricity during an earthquake that could be used to power emergency lighting or other vital systems.

Further investigation into more efficent methods of energy generation could potentially prevent damage to buildings by absorbing the energy transferred from the earthquake to the building.


Notes to editors:

For more information contact student Elliott Spender on  

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