Runs your rotary evaporator with minimal supervision
- Automatically regulates vacuum to changing conditions for faster evaporation — up to 30% faster — and tighter control
- Solvent recovery system and vacuum controller are built in to take up less lab space
- Several control settings to suit your application needs—automatic evaporation, single set point, mutlistep programmable, or computer
Self-adjusting vacuum pump system features a 1.2 cfm (34 L/min) free air capacity making it ideal for coupling with benchtop rotary evaporators. As the system continually adjusts to changing vapor conditions, it minimizes bumping and foaming, making it safer for your samples. Complete pump system is composed of a Vacuubrand® oil-free pump and digital vacuum controller with integral solvent recovery system.
The diaphragm vacuum pump operates quietly, has a corrosion-resistant flow path, integrated gas ballast, and can operate for 10,000 to 15,000 hours between servicing — very low-maintenance! This oil-free pump can apply vacuum pressures down to 2 mbar (1.5 Torr), convenient for all types of reagents, even high-boiling point solvents.
Incorporated controller features a graphic interface and "turn-and-push" jog wheel for quick manual vacuum adjustments. It automatically changes the pump speed without external solenoid valves and pump switches, and can find and follow boiling point curves using the built-in automatic evaporation control software—providing evaporation up to 30% faster than conventional vacuum pumps and controllers! Hysteresis-free, single set point control is available with this cutting-edge system, but it can also save up to ten user-defined multistep programs for applications that require a Standard Operating Procedure (SOP). Additionally, the bi-directional RS-232 port allows for computerized control of pump programs, settings, and process validation.
Integral solvent recovery system captures exhaust vapors without needing cold traps or chillers—saving you from having to purchase additional equipment and dry ice. On-board vapor capture not only saves time and expenses of coolant and energy, but reduces lab exposure to hazardous vapors.