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Water Contamination Monitoring Chelsea
Technologies Group (CTG) is working with UK and US Government
Departments and Agencies on developing novel sensor systems for
environmental monitoring and protection. The systems are specifically
designed to measure a wide range of physical, chemical, biological and
optical properties. These enable the natural biological and physical
background levels in rivers, reservoirs and abstraction points to be
characterised. Click
to download press release
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Understanding
the Environment |
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Water
abstraction points are vulnerable to spills from farms or factories, and
deliberate contamination through terrorism. Early warning monitoring
systems are required to alert operators to these contaminants and to
changes in key water
quality parameters. A timely response is necessary to prevent
contamination and disruption of the public water supply. A
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data is required to reduce |
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Novel
Systems for Rapid Contaminant |
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CTG
is conducting a development programme to assess the The
fluorescence signal from algae in chemically polluted water is impaired
compared to signals from algae in clean water. In a monitoring situation
algorithms determine the rate of change of fluorescence signal that are
independent of algae concentration and changes in ambient light levels.
The FRRF measures a time dependent fluorescence signal that arises
solely from chlorophyll that is active in photosynthesis - a parameter
that can be related directly to the physiology of the algae. The FRRF is
therefore capable of discriminating between chlorophyll that is free in
the water column, present in dead algae and present in physiologically
active organisms. The
response time for the FRRF to detect a deliberate contamination event is
a matter of seconds. When combined |
 Fast Repetition Rate Fluorimeter  Portable Instrumentation  Profiling System
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. Typical microarray image using
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Background |
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Limitations
of Current Technology The
widespread commercial exploitation of the technique for routine
diagnostics applications has been hampered by the cost of the equipment
required to read the fluorescent signals from the arrays. This has
arisen because the main driver for the development of the format has
been DNA analysis, which typically requires the use of high-density
arrays, comprising 10,000 spots or more. This has necessitated the use
of New
Approach |
Portable
Microarray System for CBRN Countermeasure Applications Following
on from the work described above, CTG is now leading a consortium
developing a flexible, robust and portable microarray platform for the
detection of micro-organisms. The
proposed platform is designed to be rapidly deployed in the event of
unexplained clusters of acute febrile illness or fatality, to screen for
the presence of a
Download latest news: 'Chelsea aids fight for homeland security with launch of On-Site Rapid Diagnostic Screening System'
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Recent terrorist attacks have lead to an increased emphasis on Homeland Security and the protection of key infrastructure. Unintentional pollution events have already resulted in increased monitoring and the establishment of many of the measures necessary to safeguard our water supply. An early-warning monitoring network can help to ensure abstraction point and water storage protection. The sensors must perform reliably when unattended for extended periods of time, typically many months. Any contamination events must be detected promptly and information passed efficiently to the monitoring station that maybe many miles away. Incorrect reporting of events, and false positives, are unacceptable. CTG is addressing the new challenges of the Homeland Security threat with our proven capability in sensors and system design for operations in hostile environments. As the design authority for the UK Sonar 2081 and Sonar 2115 oceanographic systems, we understand the demands of operational systems and provide sensors with significantly extended calibration intervals, built in test circuitry and redundancy. Our sensors operate in a range of environments from clear waters with high ambient daylight to extremely turbid conditions. CTG has participated in several European programmes addressing the problem of bio fouling on long-term systems.
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The Sensor Web is a collection of sensor platforms, or pods, that wirelessly communicate with each other. |
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Networked
Systems for Threat |
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. CTG is working with SensorWare Systems Inc to fuse their respective technologies into an innovative system to protect water supplies. SensorWare Systems will provide the Sensor Web, a new class of Geographical Information System originally developed at NASA. The Sensor Web is a collection of sensor platforms, or pods, that wirelessly communicate with each other.
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. Unlike
configurations where information from all pods is passed directly to a
central collection point, information in the Sensor Web is spread
throughout the system by wirelessly hopping the data pod-to-pod so that
each pod knows what is going on at every other pod. This architecture
allows the Sensor Web to interpret and react to the entire environment
as a collective whole, providing for identification of false positives
or plume shapes and directions. This new class of instrument will
transform the way we explore, monitor, and control environments and will
impact many fields including homeland security as well as agriculture
and remediation. |
In view of our continual improvement programme, the designs and specifications of our products may vary from those described.
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