The Agilent 1260 Infinity Autosampler is designed for the reliability, safety, and ease-of-use needed for routine pharmaceutical tasks and quality control, as well as for environmental and food analyses. It can house optionally the integrated column compartment for two LC columns with temperature control up to 80 °C as well as a sample cooler for stable temperatures down to 4 °C, all within one module.
Coulometric water determination: reliably and accurately, enables you to carry out highly accurate determinations of the water content – down to trace levels. Time-tested coulometric titrators allow you to analyze samples with low water contents (0.001 to 1%) in an easy and convenient manner.
AA3 HR AutoAnalyzer uses continuous segmented flow analysis principles to provide significant advantages for environmental applications. With reaction times, up to 20 minutes, even complex procedures like distillation can be automated. Dialyzers can be built into the system for elimination of interference from dirty or colored samples. The proprietary in-line UV digestion procedure conforms to the ISO Standard Methods for automated measurement of Total Cyanide and Total Phosphorus.
For food or pharmaceutical scientists, moisture sorption data can make or break a product. The AquaLab Vapor Sorption Analyzer (VSA) introduces simplicity, control, and affordability into the process of gathering moisture sorption isotherm data.
With the AquaLab VSA, it takes about 5 minutes to set up a test. Once you tell the AquaLab VSA the humidity levels and times you'd like to use, just put the sample into the instrument and walk away. The data from your test are automatically recorded and sent to your computer.
The determination of the flour quality and its processing characteristics are a basic demand in the milling and baking industries for ensuring optimum and uniform flour qualities for the manifold baking and noodle products.
•Measure the water absorption of flours
•Determine the rheological properties of the dough
•Check production and flour blends in the mill
•Test rye flour, sponge batters, egg foam, etc.
•Special applications e.g. for chocolate, chewing gum, fish, cheese, meat etc.
•Test full formula doughs
The InfraCal 2 TRANS-SP is recommended for measuring oil in water, TPH in soil or FOG in wastewater using the traditional EPA methods 413.2 and 418.1 or ASTM method D7066-04. With over 3,500 oil and grease monitors in worldwide use today, InfraCal 2 analyzers, originally developed by Wilks, have become a standard for the petrochemical industry. These essential tools ensure that oil content levels are below the regulated limit in water, drill cuttings, and soil. The InfraCal 2 provides real-time results for all operators needing to monitor oil in water.
Phoenix 8000 is ideal for applications requiring high sensitivity, such as: drinking, pharmaceutical grade, (Clean-in-Place, Water-for-Injection), ground, surface, semiconductor grade, steam power and ultra-pure water. Source and Drinking Water: TOC analysis is a simple, fast and inexpensive screen to determine natural organic material (NOM). Phoenix 8000 meets requirement on Standard Methods 5310C and 5310B, EPA Methods 415.1, 415.3(New), 9060, and EN-1484.
Extractions that normally take hours can be done in minutes using Accelerated Solvent Extraction System (ASE®). Compared to techniques like Soxhlet and sonication, ASE generates results in a fraction of the time. In addition to speed, ASE offers a lower cost per sample than other techniques by reducing solvent consumption by up to 90%.
•Extractions in minutes
•Dramatic solvent reduction
•Wide range of applications
•Approved for use by the U.S. EPA and CLP Program
•Automated Extraction of up to 24 samples
•Sample Cell sizes: 1, 5, 11, 22, and 33 mL
The Perten RVA 4500 is a cooking, stirring viscometer with ramped variable shear capability developed for testing the viscous properties of starch, grain, flour and other foods.
A state of the art brushless motor with a high precision measurement system provides exceptional sensitivity and accuracy when analyzing low viscosity samples and wide dynamic range when analyzing high viscosity samples.