New on-site asbestos detector improves work place safety

Report this content

The first portable, real-time airborne asbestos detector to provide a low-cost warning device to tradespeople has been developed and tested by researchers from the University of Hertfordshire’s Centre for Atmospheric and Instrumentation Research.

Asbestos was once thought of as a miracle material because of its toughness, sound absorption properties and its resistance to fire, electrical and chemical damage. Because of these properties, it was used extensively in buildings for insulation, incorporated in cement and even woven into firemen’s protective clothing. However, exposure to asbestos is now known to cause lung problems and early death. Although asbestos is now a banned material in many industrialised countries, the threat lingers on in the ceilings, walls and floors of old buildings – affecting roofers, plumbers, electricians and other building workers who may inadvertently disturb asbestos and make the toxic fibres airborne.

Professor Paul Kaye, a member of the team that developed the new detection method at the University of Hertfordshire’s School of Physics, Astronomy and Mathematics, said: “Currently there is no real-time on-site method for detecting airborne asbestos. There are real-time instruments that can detect fibres but not distinguish between asbestos and other less dangerous fibres such as mineral wool, gypsum and glass. To identify asbestos fibres normally requires expensive off-site lab work and hours of wait time.”

“By exploiting a unique magnetic property of asbestos, we developed a new detection method which can provide on-site, real-time identification of the dangerous asbestos fibres.”

When airborne asbestos fibres are exposed to a magnetic field, they tend to align with the field. This alignment can be detected by analysing light scattering patterns. By shining a laser light beam at a stream of airborne particles, a light scatter pattern is created which is unique to the type, size and shape of the particles - a bit like a thumbprint for the particle. By measuring the light scatter patterns before and after a magnetic field enables asbestos fibres to be readily identified.

Together with colleagues in the UK and Spain, prototype units have been developed and are undergoing field trials at various asbestos removal operations locations – with an estimated twelve to eighteen months to get the first production units for sale. The team hopes that, over time, the new detector will help to reduce the 100,000 annual death toll that the World Health Organisation attributes to occupational exposure to airborne asbestos.

The new detection method was developed as part of the FP7 project “ALERT”, with funding from the European Commission ‘Research for SMEs’ grant FP7-SME-2008-2.

The paper ‘Real-time detection of airborne asbestos by light scattering from magnetically re-aligned fibers’ is published in the Optical Society’s (OSA) journal Optics Express.

ENDS


For more information, please contact Julie Cooper, University of Hertfordshire Press Office on 01707 284095, Email: j.cooper5@herts.ac.uk

Notes to Editor

Paper:Real-time detection of airborne asbestos by light scattering from magnetically re-aligned fibers,” C. Stopford et al., Optics Express, Vol. 21, Issue 9, pp. 11356-11367 (2013).

Images are available to members of the media upon request.

About the University of Hertfordshire

The University is the UK’s leading business-facing university and an exemplar in the sector.  It is innovative and enterprising and challenges individuals and organisations to excel. 

The University of Hertfordshire is one of the region’s largest employers with over 2,650 staff and a turnover of almost £233 million.

With a student community of over 27,200 including more than 2,800 students from eighty-five different countries, the University has a global network of over 175,000 alumni. 

It is also one of the top 100 universities in the world under 50 years old, according to the new Times Higher Education 100 under 50 rankings 2012.

For more information, please visit www.herts.ac.uk

Did you know….? Over 3,700 new teachers have qualified from the university of Hertfordshire in the last 10 years – We are open minds!

Find out more at  go.herts.ac.uk/didyouknow

About Optics Express
Optics Express reports on new developments in all fields of optical science and technology every two weeks. The journal provides rapid publication of original, peer-reviewed papers. It is published by the Optical Society and edited by Andrew M. Weiner of Purdue University. Optics Express is an open-access journal and is available at no cost to readers online at
www.OpticsInfoBase.org/OE.

About OSA
Uniting more than 180,000 professionals from 175 countries, the Optical Society (OSA) brings together the global optics community through its programs and initiatives. Since 1916 OSA has worked to advance the common interests of the field, providing educational resources to the scientists, engineers and business leaders who work in the field by promoting the science of light and the advanced technologies made possible by optics and photonics. OSA publications, events, technical groups and programs foster optics knowledge and scientific collaboration among all those with an interest in optics and photonics. For more information, visit
www.osa.org.

Tags:

Media

Media

Quick facts

When airborne asbestos fibres are exposed to a magnetic field, they tend to align with the field. This alignment can be detected by analysing light scattering patterns.
Tweet this
The first portable, real-time airborne asbestos detector to provide a low-cost warning device to tradespeople has been developed and tested by researchers from the University of Hertfordshire’s Centre for Atmospheric and Instrumentation Research.
Tweet this
Prototype units are undergoing field trials at various asbestos removal operations locations – with an estimated twelve to eighteen months to get the first production units for sale.
Tweet this

Quotes

By exploiting a unique magnetic property of asbestos, we developed a new detection method which can provide on-site, real-time identification of the dangerous asbestos fibres.
Professor Paul Kaye at the University of Hertfordshire’s School of Physics, Astronomy and Mathematics
The team hopes that, over time, the new detector will help to reduce the 100,000 annual death toll that the World Health Organisation attributes to occupational exposure to airborne asbestos.
Professor Paul Kaye at the University of Hertfordshire’s School of Physics, Astronomy and Mathematics