The FlowSyn continuous flow reactor comes with two pumping channels as standard. Adding the Binary Pump Module (BPM) increases its capacity to four channels, making it ideal for multi-component or multi-step reactions using more than two starting materials. 

The BPM can be used in combination with and controlled by any FlowSyn system. For customers who have their own reactor system, the built-in mixer, inlet/outlet selector valves and integral back pressure regulator ensure that the BPM can also function as a stand-alone reagent/solvent delivery system. For safety and peace of mind, three pressure transducers constantly monitor pressure and system performance. 

As a stand-alone system the BPM is controlled using dedicated PC control software. Peripherals can be attached using the BPM's built-in coms ports. 

The BPM operates at up to 100 bar (1400 psi) and can be supplied with standard 10 ml/min heads or 50 ml/min heads. An upgraded version of UQ1022 is also available with a 200 bar maximum pressure rating (UQ1022-200).

2 Channel HP reagent delivery module with sample loops and inlet/outlet selection valves
Available with PTFE, stainless steel or Hastelloy flow path
Includes programmable software for reaction automation
Up to 200 bar optional pressure capability
High quality epoxy coated stainless steel construction

Asynt Ltd offer a wide range in laboratory equipment from benchtop to pilot scale. Our versatile DrySyn heating blocks provide excellent thermal performance without the associated risks of using standard oil-based systems and, when teamed with the Asynt CondenSyn air-condenser, will not only help improve sustainability but will also save you money.
Other areas we cover include Electrochemistry, photochemistry, flow chemistry, parallel synthesis, pressure reactors, evaporation and more. We offer off-the-shelf solutions as well as fully customisable systems: such as our ReactoMate jacketed vessels which can scale up from 100 mL to 100 L.
Asynt are committed to investing in new technologies that respond to the real demands of industry and academia, improving efficiency, sustainability and safety.