The Multivapor is a compact 6 position parallel vortex evaporator that is designed to optimize existing personal process workflows. When used in combination with the Rotavapor a unique increase in functionality is observed, as is an expansion of synergy with an impressively small footprint. In the absence of a Rotavapor the Stand-alone Setup provides a comprehensive, sophisticated and independent evaporation system. In contrast to nitrogen blow-down evaporators, evaporation under vacuum is in accordance with the regulations of ISO 14000 that guarantees the smallest possible negative impact on the environment.
The Rotavapor® Setup - expand synergy, reduce space
In a large number of laboratories, several rotary evaporators are used to cope with the ever increasing demand of high sample throughput. The Multivapor solves this problem by heating individually sealed samples and transferring the vapor to the condenser assembly of the rotary evaporator. This concept increases the flexibility of the Rotavapor whilst reducing the total evaporation time. Hence, excellent time and resource savings are achieved on a minimal footprint.
- Evaporate 6 x 150 ml in parallel
- One condenser, vacuum and chiller assembly for two instruments
- Maximize bench space: 27 x 40 cm (footprint)
- No cross-contamination due to individual seals and vapor channels
The Stand-alone Setup - a comprehensive benchtop solution
The Stand-alone Setup features a separate condenser. It requires a peripheral vacuum source with controller. The EasyVac Bundle vacuum system is a low-price solution for straightforward automatic distillation, whereas the sophisticated Professional Bundle allows complex programmed pressure profiles, automatic distillation, repeat functions and much more. With the Buchi vacuum systems even complex and delicate mixtures are easily, safely (no bumping) and efficiently evaporated.
- Automatic distillation, stored pressure profiles
- Optimal interaction between Multivapor and peripherals
- Personal setup without interference with other processes