21st century science harnessed to help preserve historic buildings

December 07, 2005

Famous British landmarks such as St Paul's Cathedral stand to benefit from world-leading research aiming to aid the conservation of limestone buildings.

A key element in the project is the development of highly sensitive, innovative fibre-optic sensors able to provide data about the physical and chemical processes at work in limestone blocks used in buildings.

The initiative is being undertaken by a team combining state-of-the-art expertise in Geomorphology, Physics and Civil Engineering from Queen's University Belfast, City University in London and Oxford University. Funded by the Engineering and Physical Sciences Research Council (EPSRC), work is due to begin at the start of January 2006.

Limestone decay caused by pollution, weather and other factors can be disfiguring and expensive to rectify, and - if left untreated - may eventually lead to a building's collapse. By radically improving understanding of how and why limestone decays, the new research will make it easier to develop better ways of tackling the problem.

Limestone is the main construction material used in many of the UK's most historic buildings, including St Paul's, Lincoln and Wells Cathedrals and many Oxbridge colleges. Although basic knowledge exists about the general causes of limestone decay, it is not known why decay takes place in unpredictable fits and starts or why it accelerates in some parts of a building but not in others.

Understanding what lies behind these processes is vital not only to enable action to be taken before decay spirals out of control, but also to ensure that conservation decisions do not lead to premature and unnecessary replacement of limestone blocks - and avoidable expense.

In the new project, optical sensors will be developed that can monitor how limestone blocks are affected by traffic pollution, road salt, temperature, humidity and wetness, detecting subtle changes in the blocks due to changing moisture levels and salt movement, for instance. The sensors will be installed in a boundary wall at Worcester College, Oxford, and other limestone structures. Information will be fed from the sensors, via fibre-optic cable, to a data logger and analysed to assess how decay correlates with the limestone's precise physical, chemical and mineralogical characteristics and with different environmental factors.

Dr Heather Viles of Oxford University is one of the Principal Investigators leading the project. She says: "This is really the first time that electronic and other engineering expertise has been applied to the problem of rapid limestone decay. As well as informing anti-decay strategies, our research will generate knowledge about types of limestone best suited to particular environmental conditions, and so will benefit renovation and new-build projects."
Notes for Editors

The 3-year research project, "Rapid, Catastrophic Decay of Building Limestones: Implications for Masonry Selection and Lifetime Behaviour" is receiving total EPSRC funding of just over £546,000.

Most building limestones used in the UK date from the Jurassic period (around 150-200 million years ago). The project focuses especially on oolitic limestones, commonly found in the Jurassic, which are formed from small spherical grains of rock embedded in a matrix. The dominant mineral is calcite which is highly prone to chemical attack by acid rain etc.

EPSRC-funded research at Queen's University Belfast has previously assessed processes of decay that occur in sandstone - another widely used building material. The EPSRC has also previously provided funding support for the development of fibre-optic sensors at City University, especially for the monitoring of concrete.

Geomorphology is the study of how landforms are produced and the processes involved (e.g. weathering and rock breakdown).

The Engineering and Physical Sciences Research Council (EPSRC) is the UK's main agency for funding research in engineering and the physical sciences. The EPSRC invests more than £500 million a year in research and postgraduate training, to help the nation handle the next generation of technological change. The areas covered range from information technology to structural engineering, and mathematics to materials science. This research forms the basis for future economic development in the UK and improvements for everyone's health, lifestyle and culture. EPSRC also actively promotes public awareness of science and engineering. EPSRC works alongside other Research Councils with responsibility for other areas of research. The Research Councils work collectively on issues of common concern via Research Councils UK. Website address for more information on EPSRC: www.epsrc.ac.uk/

For more information, contact:

Dr Heather Viles, Oxford University Centre for the Environment, University of Oxford, Tel: 01865 285198 or 285070, E-mail: heather.viles@ouce.ox.ac.uk

Professor Bernard Smith (Senior Project Partner), School of Geography, Archaeology and Palaeoecology, Queen's University Belfast, Tel: 028 9097 5144, E-mail: b.smith@qub.ac.uk

Professor Ken Grattan, School of Engineering and Mathematical Sciences, City University, London, Tel: 020 7040 8120, E-mail: k.t.v.grattan@city.ac.uk

Two images of Worcester College Oxford are available from the EPSRC press office, contact Natasha Richardson, Tel: 01793 444404, E-mail: natasha.richardson@epsrc.ac.uk

Worcquad.jpg- suggested caption: "Worcester College, Oxford - where state-of-the-art sensors will be installed" Worcfrontwall.jpg - suggested caption: "Time takes its toll - the front wall of Worcester College, Oxford, shows patchy limestone decay."

Engineering and Physical Sciences Research Council

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