About Us

  Rotary Evaporator
  Large Scale Rotary
  Auto. Module-Distimatic
    Improve ur evaporation process
    At the Glance
    Functional principle
    Programs for Process Control
    Distimatic Bench-top
    Laborota 20 Distimatic
    Distimatic Packages
    Public announcement
    Safety Certificate
  Magnetic Heater Stirrer
  Overhead Stirrer
  Shaker & Mixer
  Peristaltic Pump
General Leading Safety
Superior Ease of Use Reduced Cost of
    Your Advantages - our Hei-lights
   For unattended and continuous use – including automatic drainage of residue

   Save time by distilling large volumes in a continuous and unattended
   manner overnight and during the weekend

  .Automatic refill of the evaporation flask with the solvent
      mixture according to your settings. Continuous
      automatic discharge of condensate

  .The worldwide unique automatic residue drainage
      offers unattended distillation for days
  .The automatic module is compatible with all bench-top       and large-scale evaporators from Heidolph

  .The storage and the collecting tank can be replaced       during the process

   The smart way to process large quantities automatically
  .The system is available for bench-top evaporators up to
      5 L flask size & industrial evaporators up to 20L
      flask size
  .Bumping is eliminated by continuously feeding small
  .For distillation select between these two modes:
      Refill & drainage are automatically sensor-controlled
      All parameters controlled by individually
      pre-programmed automatic time intervals

  .Process rates with bench-top evaporators for the most       common solvents are:
  .Water (60 °C): 1.4 l/h
  .Acetone: 6.0 l/h
  .Toluene: 6.5 l/h
  .Ethanol: 2.5 l/h
  .Increased process rates with Hei-VAP Industrial       large-scale evaporators for example:
  .Water: 4.5 l/h
  .Acetone: 25.0 l/h
  .Both modes are completed in an automated and       unattended process of solvent separations of
      nearly 100%
  .Degree of concentration for final product can be       determined to rule out dehydration, cristallisation       and formation of powder