Environmental Analysis & Electrochemistry Identifying an Optimal Biofuel Unique System provides Biochemical Oxygen Demand Determination


Velp Scientifica innovative BOD EVO Sensor is the most convenient way to get reliable results automatically on the Biochemical Oxygen Demand for water and wastewater quality control. The system is based on a wireless protocol and results are clearly displayed through the user friendly BODSoft™, without any extra activities: data management and reporting become incredibly intuitive.


Measurement is available on 4 different scales - 90, 250, 600 and 999 ppm BOD. Higher values can be measured by diluting the sample.


BOD EVO Sensor System 6 is a complete package for BOD analysis and is ready-to-use.


It includes a 6-position stirring station with BOD Sensors, dark glass bottles, alkali holders and stirring bars. The Stirring Station is extremely simple to handle and the Velp stirring quality is guaranteed. The space saving footprint means that up to 5 stirring stations for a total of 30 samples can be placed in a Velp incubator (FOC 215E) simultaneously.


The Model 440 Elemental Analyzer from Exeter Analytical Inc is proven to provide precise percentage Carbon (C), Hydrogen (H) and Nitrogen (N) data on biomass samples in as little as 5 minutes


Identifying an optimal biofuel from crop, grass, algae or tree (biomass) samples has traditionally been laborious and painstaking. Determining the percentage Hydrogen data enables easy calculation of the biomass sample gross or net calorific value. With increasing global interest in ‘Carbon Trading’ the determination of percentage carbon provides accurate data to enable organisations (or countries) to buy and sell carbon permits as part of a program to reduce carbon emissions. The determination of the Nitrogen content of biomass samples using a Model 440 saves considerable time and cost with no diminishment of data quality compared with the traditional Kjeldahl nitrogen determination method.


The Model 440 is a static combustion CHN Elemental Analyzer, with a unique horizontal furnace design, which enables easy removal of sample residue between each biomass analysis. Consequently one combustion tube will analyse in excess of 1000 biomass samples without the need for removal and cleaning. By comparison other elemental analysers, employing vertical furnace designs, will require cleaning after as little as 20 samples. The gas flow characteristics of the Model 440 analyser are superior to other elemental analysers due to the effective elimination of troublesome residue build-up. This thereby provides longer- term calibration stability as well as enhanced accuracy and precision for measured biomass sample data.


In addition, as the Model 440 provides complete control over combustion parameters it is able to reproducibly achieve 100% combustion with the widest range of biomass samples. Proprietary Nitrogen analysis software uniquely enables accurate measurement of low Nitrogen levels (in the 0.1-0.2% range) with a high degree of accuracy.


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The exclusive dedicated software BODSoft™ allows the operator to monitor and record the analysis progress thanks to the data sent automatically by the Wireless DataBox™. BOD EVO Sensor ensures a high reliability as there is no need to open the door of the incubator thus eliminating the risk of internal temperature variations.


BOD EVO Sensor, an impressive step ahead in Biochemical Oxygen Demand determination.


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Stability and Photostability Tests Made Easy


LTE Scientific, one of the UK’s leading manufacturers and suppliers of laboratory testing and sterilisation equipment recently launched the new generation of Aralab Stability and Photostability chambers in the UK, which have been specifically designed for tests in accordance with GMP, FDA and ICH guidelines.


After years of development and constant customer feedback, the renewed product range meets the most demanding requirements for tests in the pharmaceutical, food and cosmetic industries.


Due to sophisticated and flexible control technology and internal aerodynamics, these chambers offer and exceptional temperature and humidity uniformity. For stability tests in accordance with ICH Q1A, they cover a temperature range from 0°C to 45°C and a relative humidity range from 30 to 95%.


The new 600 PLH-R model, equipped with UV and VIS illumination and integrated radiometer and light sensors, can perform photostability tests in


compliance with standard ICH Q1B option 2 in a completely autonomous way.


To make it even easier, all operations are effortlessly configured on the new ClimaPlus® colour touch-screen interface. The solution is completed with the FitoLog® software: an FDA 21 CFR part 11 compliant software package, where all operating data, programs and alarms can be remotely monitored and managed on a computer.


The Aralab range perfectly complements LTE’s Environmental room business which provides bespoke solutions for clients looking for close control temperature and humidity rooms for incubation, BOD, controlled storage and stability studies.


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Portable Multiparameter Meter


Rugged, waterproof and easy to use, the Hanna Instruments HI 9829 is the ideal meter for environmental field measurements of streams, rivers, lakes and seas. It can display 12 parameters simultaneously from up to 14 user selectable parameters.


Available sensors include: pH, ORP, conductivity, turbidity, temperature, ammonium, nitrate, chloride, dissolved oxygen, resistivity, TDS, salinity, atmospheric pressure, and seawater sigma.


Additional features include: field replaceable ISO 7027 compliant turbidity sensor; ammonium, chloride and nitrate ISE’s; logging from probe or meter ; field replaceable sensors; pH/ORP or pH, four electrode EC and galvanic DO sensors; Fast Tracker™—Tag I.D. System simplifies periodic monitoring.


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Environmental Sample Analysis Service


Drawing upon over 10 years’ experience, Warwick Analytical Service (WAS) is able to provide high quality laboratory analytical services for analysis of environmental samples from their facilities at the University of Warwick Science Park.


Driven by increasing governmental legislation – monitoring of contamination of air, land and water samples now needs to be undertaken by any responsible organisation producing waste and/ or emissions. These monitoring processes are important not only for legislative compliance but also for assessing the risk that human activities pose to the natural environment.


In response to this need - WAS has developed contract based services for analysis of environmental samples using ICP optical emission spectroscopy, CHN microanalysis and Halogen (F, Cl, Br, I) analytical techniques.


For full details of these services please visit www.warwickanalytical.co.uk/environmental-services.html. 30470pr@reply-direct.com


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