Photochemical processes reactor PhotoSyn LED
cooling

Photochemical processes reactor - PhotoSyn LED - Asynt - cooling
Photochemical processes reactor - PhotoSyn LED - Asynt - cooling
Photochemical processes reactor - PhotoSyn LED - Asynt - cooling - image - 2
Add to favorites
Compare this product
 

Characteristics

Applications
photochemical processes
Temperature
cooling

Description

The Uniqsis PhotoSyn has been designed to provide scientists with a high power LED light source for continuous flow applications. Available with a selection of different LED arrays the unit can provide outputs up to 700W from the dedicated programmable power supply. Customised units (e.g. 385nm, 420nm) are available on request. The curved, water (or gas) cooled LED arrays focus the available light on the central coil reactor to maximise the photon intensity. The PhotoSyn has been thoughtfully engineered to completely prevent potentially hazardous light emissions from the unit, and is protected with interlocks that deactivate the light source if any attempt is made to remove the cover whilst in operation. In addition, a fan both prevents the build up of static hot air within the lamp unit and removes any vapour that may accumulate over time. The PhotoSyn is compatible with the Uniqsis Cold Coil (shown fitted in images) and Polar Bear Plus Flow reactor modules. These reactor modules are available separately. • UV-A/Blue, Blue & Blue/Green/White light options • No light leakage in operation • Long lifetime, energy efficient LED array light source • Chromed coil reactor mandrels to maximise internal reflection • Independent temperature control of coil reactor • 700W Variable output programmable power supply • Designed & manufactured in the UK by Uniqsis Ltd

Catalogs

No catalogs are available for this product.

See all of Asynt‘s catalogs
*Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.