Often
the cause of loss in a fire claim is attributed to ‘electrical short-circuit’. Electrical systems – for obvious reasons –
are designed to be reliable. Like any complex system, electrical systems
require periodic maintenance and inspection to ensure power is supplied to
buildings and facilities in a safe and efficient manner. Prevention is better than cure and for sure
all parties – be it Insuring public, brokers, and of course Insurers would be
happier if faults could be identified, especially by
an non-invasive method …… ‘thermal imaging’ is perhaps the answer –
globally some Insurers are extending thermal inspection prior to or at the time
of coverage as a ‘value-add service’.
It is stated that with the aid of a thermal imaging inspection, faults
can be found, identified and re-mediated at a minimal cost in comparison to
equipment failure which can possibly lead to a claim under the Policy. The technology can identify "hot
spots" in wiring, caused by poorly connected cabling, which if undetected,
can lead to overheating and potentially a serious fire hazard. Additionally,
the service can be utilised to identify leaks, burst pipes, check seals on cold
stores and even measure the energy efficiency of buildings.
Frederick
William Herschel, [1738-1822] was a Hanoverian-born British astronomer,
technical expert, composer. He became famous for his discovery of the planet
Uranus, along with two of its major moons, Titania and Oberon, and also
discovered two moons of Saturn. He is also known for the twenty-four
symphonies, and many other musical pieces, that he composed.
Infrared
thermography (IRT), thermal imaging, and thermal video are examples of infrared
imaging science. Thermographic cameras detect radiation in the infrared range
of the electromagnetic spectrum and produce images of that radiation, called
thermograms. Since infrared radiation is emitted by all objects above absolute
zero according to the black body radiation law, thermography makes it possible
to see one's environment with or without visible illumination. The amount of
radiation emitted by an object increases with temperature; therefore,
thermography allows one to see variations in temperature. When viewed through a
thermal imaging camera, warm objects stand out well against cooler backgrounds;
humans and other warm-blooded animals become easily visible against the
environment, day or night. As a result, thermography is particularly useful to
military and other users of surveillance cameras. Thermal imaging can detect
elevated body temperature, one of the signs of the virusH1N1 (Swine influenza).
Thermography
has a long history, although its use has increased dramatically with the
commercial and industrial applications of the past fifty years. Firefighters
use thermography to see through smoke, to find persons, and to localize the
base of a fire. Maintenance technicians use thermography to locate overheating
joints and sections of power lines, which are a sign of impending failure.
Building construction technicians can see thermal signatures that indicate heat
leaks in faulty thermal insulation and can use the results to improve the
efficiency of heating and air-conditioning units. The appearance and operation
of a modern thermographic camera is often similar to a camcorder.
thermal image of a faulty line - photo credit : nachi.org
In
a thermographic camera - a special lens
focuses the infrared light emitted by all of the objects in view. The focused
light is scanned by a phased array of infrared-detector elements. The detector
elements create a very detailed temperature pattern called a thermogram. The
thermogram created by the detector elements is translated into electric
impulses. The impulses are sent to a signal-processing unit, a circuit board
with a dedicated chip that translates the information from the elements into
data for the display. The combination of
all the impulses from all of the elements creates the image.
With
interest aroused, we for sure would hear more from the experts – as the
foregoing was gleaned from some sites without Yours Truly, truly understanding
most of the aspects …….but the following article in Daily Mail makes an
interesting read : it is about
‘Wardens using thermal imaging equipment to track dog owners who let their pets
poo in the dark’
Council officers
in Scotland
are turning up the heat on night-time dog walkers who let their pets poop in
public spaces – by tracking culprits using thermal imaging equipment. The
advanced technology – which is usually used to catch criminals and dangerous
drivers - is being deployed by Fife Council because the problem of dog mess in Fife has become a major problem. The thermal cameras will
be able to detect the body heat of dogs and their owners - and recently
produced poo - from hundreds of yards away. The council officers who will be
tasked with handing out fines will also be given stab vests to protect
themselves from any violent or aggressive dog owners. However, officers said
that not all culprits take kindly to the serving of such notices. ‘There is no excuse for people turning away,
ignoring and failing to pick up their dog’s mess, even if they take one step
away from the dog-fouling I would be tempted to fine them because they have no
intention of picking it up.’
In
between you read about - Frederick William Herschel, the Hanoverian-born
British astronomer, was not only a
composer but a discoverer too. He was
the first person to discover the existence of infrared radiation. In 1800, Herschel was testing filters for the
sun so he could observe sun spots. When using a red filter he found there was a
lot of heat produced. Herschel discovered infrared radiation in sunlight by
passing it through a prism and holding a thermometer just beyond the red end of
the visible spectrum. This thermometer was meant to be a control to measure the
ambient air temperature in the room.
With regards –
S.Sampathkumar
13th May 2014.