Cuvette-style interface for biofuel research
Hiden has launched a cuvette-style interface for its HPR-40 membrane inlet mass spectrometers (MIMS).
The cuvette is specifically engineered for the researcher investigating gaseous species generated by algal photo-responsive reactions.
It is engineered to be both flexible and user maintainable with inert materials throughout.
Concentric transparent acrylic cylinders, sealed by a removable base and cap, form an inner reactor zone with an outer sleeve, the latter to enable thermally stable water to be re-circulated to maintain a uniform reactor temperature.
A magnetically-driven impeller, located close to the integrated membrane surface, maintains overall media consistency.
Two alternative sets of acrylic sleeves are supplied for user-selection of the reactor capacity.
Standard reactor volumes are 25 cc and 50 cc, and two dark shields are included to enable measurement with illumination excluded.
Two membrane holders are also supplied to provide a 4-fold difference in membrane surface area, the larger area being preferred for enhanced transmission of organic vapours and the smaller for dissolved gas measurement.
Connectors are included for water connectivity and thermocouple insertion.
The Hiden HPR-40 MIMS systems are available with alternative process interfaces including media insertion probes, membrane carriers for recirculating media, stream-switching modules for automatic cycling through multiple process vessels (up to 80 streams) and fermentation top-gas measurement.
Hiden Analytical’s Catlab integrated micro-reactor/mass spectrometer(MS) system now addresses an extended applications range.
The Hiden HPR-30 differentially-pumped mass spectrometer enables real-time measurement and control of gas composition in vacuum processes.
The Hiden Catlab integrated micro-reactor/mass spectrometer (MS) system can now accommodate sample volumes up to 2mL.
The Hiden EQS-series of quadrupole mass spectrometer probes has been enhanced with the addition of an electron bombardment application.
The differentially pumped PSM probes are designed to provide measurements within the reaction chemistry of plasma processes.