REDEEM Packed- Bed Flow Reactor
Overview:
Specifications:
Volume: Depends on the packing ~ 1,3-5,4 mL.
Illuminated area: 26,38 cm²
Depth: 0,1-5 mm
Flow cross section: 32,04 mm²
Temperature range: -20/340°C
Pressure range: Up to 12 bar
Residence time: Depends on the packing (1-50000 seconds)
Materials option: Stainless steel, Hastelloy, Cu, PEEK, Anodized Al
Particle options: Al, TiO₂ (see our catalyst catalog), glass, silica and stainless steel
Window options: Borosilicate, quartz, ITO, Sapphire
Dimensions: 8,6x7,2 cmKey Benefits of Packed-Bed Reactor:
Maximizes reactant-catalyst interaction, leading to higher conversion rates and selectivity.
Enhances heat and mass transfer, reducing side reactions and improving overall yield.
Supports high-throughput synthesis, optimizing reaction scalability
Possible applications:
A fit for heterogeneous catalysis in flow where stable operation and controlled contact time are important. The reactor minimize resistance to support extended run times and high catalyst utilization.
Solid-Gas
Enhances mass transfer in catalytic or absorption reactions.
Solid-Liquid
Maximize solid-liquid surface area.
Advanced Mixing Technology
Equipped with a high-precision microfluidic system, the Redeem Packed-Bed Flow Reactor ensures uniform distribution of reactants, eliminating concentration and temperature gradients, which leads to greater reproducibility in chemical processes.
Design and Operation:
Robust and Highly Efficient Structure
Modular design made of stainless steel and corrosion-resistant materials, ensuring durability and compatibility with a wide range of reactants.
Optimized configuration for seamless integration with existing industrial equipment and processes.
Simplified operation, reducing the need for manual intervention and maintenance.
Applications
The Redeem Packed-Bed Flow Reactor is the ideal solution for a wide range of industries, including:
Pharmaceutical Industry
Synthesis of active ingredients with high purity and repeatability.
Chemical Industry
Production of polymers, catalysts, and fine chemicals.
Energy sector
Applications in biofuels and thermal conversion processes.
Nanotechnology
Production of nanoparticles and advanced materials.