Water Quality Monitoring from Chelsea Technologies Group
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UviLux Workshop, July 2012 Chelsea Technologies Group Chelsea Technologies Group Justin Dunning, Sales Manager Chelsea Technologies Group
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Chelsea Technologies Group (CTG) has nearly 50 years experience in the design and manufacture of a range of sensors and systems for the marine, environmental, defence, homeland security, industrial process control and life science markets. Our technology is being pioneered for a range of diverse applications.
Transcript of Water Quality Monitoring from Chelsea Technologies Group
UviLux Workshop, July 2012
Chelsea Technologies Group
Chelsea Technologies GroupJustin Dunning, Sales Manager Chelsea Technologies Group
UviLux Workshop, July 2012
Chelsea Technologies Group
Application of sensor technology
Process control & monitoring
Medical diagnostics
Algal biofuel production
Fresh water & coastal monitoring
Offshore pipeline leak detection
Hydrocarbon pollution monitoring
Naval Defence
Tactical Oceanography
Acoustic Target Simulation
Oceanographic research
Sensors & systems
Acoustic transducers
Fisheries
Exhaust gas monitoring
Ballast water monitoring
FerryBox
Security
Water Quality/Treatment
Bio/chem Security
Storage Tank Security Environmental
UviLux Workshop, July 2012
Marine• Oceanography
- Deep ocean research- Climate change monitoring- Biodiversity- Long term monitoring systems
• Products- Sensors & systems- Towed vehicles- Acoustic transducers
UviLux Workshop, July 2012
Marine – towed vehicle systems
UviLux Workshop, July 2012
Marine – acoustic products
UviLux Workshop, July 2012
Defence – submarine systems
UviLux Workshop, July 2012
Defence – ship systems
UviLux Workshop, July 2012
Defence – acoustic systems
UviLux Workshop, July 2012
CPNI – water protection
• Contamination detection- Bioterrorism- Agricultural run-off- Industrial- Hydrocarbon- Sewage / waste water
• Fast Repetition Rate Fluorometry- FastGuard
UviLux Workshop, July 2012
Environmental• Fresh water monitoring
- Ecological assessment- Algal bloom detection- Acoustic impact studies
• Coastal monitoring- Corals/seagrasses- Waste water outflow- Fisheries
• Offshore pipeline leak detection
• Hydrocarbon pollution monitoring- Legislation following BP Macondo incident
UviLux Workshop, July 2012
Maritime - FerryBox
UviLux Workshop, July 2012
Maritime - exhaust gas scrubbing monitors
• Onboard systems allow use of existing low sulphur fuels
• Avoid expensive fuels and engine modifications
• Hamworthy Krystallon- New build Messina vessels- Retrofit APL vessels- New Solvang vessels
• PAH, Turbidity & pH sensor suite
UviLux Workshop, July 2012
Maritime - ballast water monitoring
• Prevent the transport of invasive species
• IMO Ballast Water Convention 2004
• All new builds from 2012
• Vessels built before 2012 must be fitted by 2017
• Estimated 62,000 MWTS required
UviLux Workshop, July 2012
New fluorometers for the Water Industry• UniLux/TriLux
- Miniature single & multiwavelength fluorometers- Pigment and dye tracing- Algal group studies & bloom detection
• Fast Repetition Rate Fluorometry (FRRf)- Active fluorescence- Contamination detection- Ecological monitoring
• UviLux- New range of low cost UV fluorometers- PAH, CDOM, Optical Brighteners & Tryptophan
UviLux Workshop, July 2012
• Referenced LED excitation- High sensitivity & stability
• Single window geometry- Suitable for wipers
• High quality optical filtration- Low background- Low turbidity breakthrough
• Microprocessor control- Digital output in calibrated engineering units- User control of instrument parameters
• Parameters- Chlorophyll-a, phycobiliproteins, fluorescein, rhodamine-wt &
turbidity
UniLux single wavelength fluorometers
UviLux Workshop, July 2012
TriLux multiwavelength fluorometers• 3-channel multi-wavelength fluorometer
- Same form factor as UniLux- 3 excitation wavelengths- Common detection at 685nm
• Application- Contribution to chlorophyll fluorescence from light
harvesting pigments- Algal class studies- Bloom detection
• 3 configurations available- Chlorophyll-a, phycocyanin, turbidity (freshwater)- Chlorophyll-a, phycoerytherin, phycocyanin (coastal)- Chlorophyll-a, phycoerythrin, turbidity (seawater)
UviLux Workshop, July 2012
Algal fluorescence induction spectra
Chaetoceros gracilisMarine diatom (Chlorophyll c)
Wavelength (nm)
Dashed line = 685 nmHeavy line = 730 nmLight line = O2 evolution
Wavelength (nm)
Porphyridium cruentumMarine, unicellular red algae
Wavelength (nm)
Ulva sp. (Sea lettuce)Green algae (Chlorophyll b)
Wavelength (nm)
Chroomonas sp. (Cryptophyte)Marine cyanobacterium – more chlorophyll than most cyanobacteria + phycocyanin only
UviLux Workshop, July 2012
• Development from conventional chlorophyll fluorimetry
• Specific tool to study phytoplankton physiology
• Used for open ocean research- Photosynthesis efficiency, biomass, primary photosynthesis/productivity- Carbon dioxide fixation, climate modelling- Bloom detection
• Applications:- Homeland security - Industrial contamination detection- Environmental monitoring- Bioreactor process monitoring
Fast Repetition Rate Fluorometry (FRRf)
UviLux Workshop, July 2012
FRRF applied to water toxicity monitoring• Toxins disrupt algal physiology and photosynthetic pathways• Use natural algal population as transducer
- Provides more specific information than conventional fluorimetry- Broad spectrum detection capability
• Time dependent measurement- Dimensionless parameters - Less susceptible to natural variations- Multi-parameter sensor
• Potential applications- Water intake protection- Bloom detection- Ecological monitoring
UviLux Workshop, July 2012
UviLux – currently 4 configurations
PAH CDOM Optical Brighteners Tryptophan
Excitation 255nm 255nm 350nm 280nm
Emission 360nm 450nm 450nm 360nm
Sensitivity 0.005g/L(carbazole)
0.002g/L(perylene)
0.005g/L(stilbene derivatives)
0.02g/L(Tryptophan)
Range 0.005 – 200g/L 0.002 – 15g/L 0.005 – 200g/L 0.02 – 800g/L
Depth Rating 600m 600m 600m 600m
UviLux Workshop, July 2012
What is Tryptophan?
• An essential amino acid in human diet
• Main component of protein fluorescence • Associated with microbial activity
- Sewage & faecal contamination of waste waters, e.g. agricultural runoff
• Fluorescence correlates with BOD measurements
UviLux Workshop, July 2012
Fluorescence correlation to BOD• Strong relationship between fluorescence and BOD5 demonstrated
• Applications: - Surrogate for Biological Oxygen Demand (BOD) measurement- Effluent contamination monitoring- Combined Sewage Overflow (CSO) and Fish Kill investigations- General pollution event investigations- Foul & surface sewer misconnection detection- Water catchment surveys
‘Should consider fluorescence spectroscopy as a more accurate, independent and flexible indicator of bioavailability
than BOD5’Science of the Total Environment 391 (2008) 149 – 158
UviLux Workshop, July 2012
Tryptophan UviLux• Currently the only commercial in situ Tryptophan fluorometer available
• Why measure fluorescence? - Sensitivity - typically x1000 absorbance techniques- Specificity – not everything fluoresces
• Why measure in situ?- Spot sampling - Avoids sample transport for laboratory testing- Over sampling improves data quality- High spatial and temporal resolution
• Features- Robust stable performance- Combines high sensitivity with wide dynamic range- Digital & analogue outputs- Wireless connectivity for field use- Inline options available
