The Multiwave GO microwave digestion system with the patented Directed Multimode Cavity (DMC) provides the best of both monomode and multimode microwaves. The microwave field adapts itself to the number of filled or empty positions and the filling state of the vessel – that’s truly innovative. Due to the TURBO cooling process, unique cooling times as short as eight minutes for a fully loaded twelve-position rotor are possible (for EPA methods). With its SmartVent technology, Multiwave GO is the most convenient microwave digestion system on the market.
GO for TURBO concept – the shortest process times on the smallest footprint
The unique Directed Multimode Cavity (DMC) of Multiwave GO enables highly efficient TURBO heating with only one magnetron in a compact system. As in a monomode system, the microwaves are directed to the sample, providing highly efficient heating in a small-footprint system. As in a multimode system, more than one sample can be digested in a single run.
In combination with the most effective TURBO cooling system for rapid cooling from 180 °C to 70 °C in less than eight minutes (for EPA methods) Multiwave GO provides you with the shortest overall process times on the market. This is possible due to the perfect interplay between the built-in cooling unit, exhaust, rotor, and vessels (with cooling fins) and also makes the smallest footprint become a reality.
Multiwave GO – goes easy for a huge variety of samples
A huge variety of samples can be reliably digested with Multiwave GO. These include environmental samples, food and feed analysis, material testing, as well as petrochemical, plastic, polymer, cosmetic, metal, alloy, and geochemical samples.
A multitude of samples can be easily digested with preinstalled generic methods (e.g. EPA 3015A, EPA 3051A, or EPA 3052) which further simplifies your workflow.
Benefit from a complete microwave system in a compact design with which you can perform routine digestion and leaching of high sample amounts, low sample amounts, inorganic or organic matrices.