A versatile tool which can adapt to your needs
Asuryan lets you measure your product in less than 50ms. It
offers excellent stability thanks to a simultaneous reference measurement of the source's spectrum. Several spectrometers can be integrated into Asuryan to perform measurements on several key phases of the process (dilution, filling, etc.), thus giving
an immediate snapshot of your whole process. This flexibility proves essential in processes manufacturing or consuming high added-value or very varied products…
Constantly optimized measurement
Asuryan can adapt to a large number of sensors (immersion
with different optical trajectories, flow cell, SFX multi-angle
sensors, ATR signal attenuation sensor) to allow flexibility
when measuring diverse products of interest in diverse media.
Modulation of the integration time facilitates its integration
in multiple media. To guarantee that the measurements are
perfectly reproducible, Asuryan can check the stability of the
light source by using an additional internal spectrometer
SOURCE: Long life Deuterium UV lamp with optical shutter.
An option is available to split the luminous flux towards three channels.
SPECTROMETER(S): 1 to 3 measuring spectrometers with the option of an additional internal
light-source measurement spectrometer to correct for fluctuations.
SPECTRAL RANGE: 200-800 nm
SPECTRAL RESOLUTION (FWHM): < 6.5 nm
SAMPLING: Transmission probes, transflection probes. UV_ATR probes, flow cells, SFX multi-angle probe
MEASUREMENT TIME: Very fast measurement (usually <50 ms).
TEMPERATURE 5 – 40 °C
RELATIVE HUMIDITY 5 – 90 %
LAB SYSTEM DIMENSIONS: Stainless-steel unit, H215 mm x W400 mm x D330mm.
Technology incorporating measurement and analysis software
Integrated Asuryan Ready software lets you optimise
measurement acquisition, particularly in terms of the
integration time, number of scans, etc. It is controlled via the
OPC-UA communication protocol, or directly in stand-alone
mode. The software also enables you to integrate several
chemometric models obtained using toolboxes such as
PLS_Toolbox (ACP and PLS models). Once these models have
been integrated, they let you monitor the process's critical
parameters on your display
Crystallisation concentration monitoring
Supersaturation monitoring and control
Downstream biological process monitoring
Intralipid globule size and form of crystals
Nanoparticles in suspension