Flow Chemistry Teaching Platform (Upgraded Specification)
Flow Chemistry Teaching Platform (Upgraded Specifications)
Interactive visualization helps students easily grasp the workings of flow chemistry reactions.
Continuous microchemical synthesis technology is a leading direction in chemical engineering and chemical industry development. Employing this technology in chemical synthesis and transformation can decrease reactor size, boost process efficiency and selectivity, and enhance process safety. Given the growing need for stringent safety and environmental protection, continuous microchemical synthesis technology attracts more and more interest.
Mixing performance, interfacial mass transfer, and reaction behavior in the microreactor form the foundation for its advantages. Due to the scale effect in the microreactor, its mixing ability, interfacial mass transfer, and reaction behavior differ significantly from traditional stirred tank reactors.
This device is designed based on continuous microreaction synthesis technology. Students are encouraged to explore microscale effects in the microreactor through experimental characterization and to understand the actual continuous microreaction synthesis process through simulation experiments. They should master the operation of continuous microreactors and deepen their understanding of this technology.
The software system offers visual, interactive tutorials that guide users through the entire process.
The chosen experimental samples accurately represent the subject matter. By using color changes, students can easily comprehend the mechanics of a flow chemistry reaction.
The instrument's operation is straightforward. Combining microreactors with the tutorials results in a seamless user experience.
| Module | Specifications | |
| Pump | Type: Dual-syringe high-pressure pump Mateiral: 316L+Borosilicate, C276+Borosilicate Flow Rate: 3 mL/min, 10 mL/min Accuracy: ±1 % Repeatability: RSD<0.3% | |
| Pump | Type: Dual-plunger high-pressure pump Flow rate: 10 mL/min, 50 mL/min,100 mL/min Mateiral: 316L, C276, PTFE (working pressure < 2 MPa) Accuracy: ±1 % Repeatability: RSD<0.5% | |
| Gas Mass Flow Meter | Flow Rate: 5 sccm, 100 sccm, 200 sccm Accuracy: ±1 % Repeatability: RSD<0.5% Suitable Gas: H2, N2, CO, CO2, NH3 | |
| Reactor (Plate-Type) | Reaction type: Liquid-liquid homogenous reaction, liquid-liquid hetergenous reaction, photochemistry reaction Material: Borosilicate Reactor liquid retention volume: 10 mL Glass transmittance wavelength range:285-2200 nm Light source: N/A or single-sided light source Wavelength: 405 nm Heat Exchange Mode: Single-layer heat exchange Light source power: 126 W | |
| Tube-in- Tube Reactor | Reaction type: Gas-liquid reaction Material: Inner tube: PTFE (AF2400); Outer tube: PFA Reactor liquid retention volume: 0.6 mLL | |
| Backbone | No. of liquid pipeline: 2 No. of gas pipeline: 1 Working pressure: < 6 bar Temperature: -5-150 ℃ Dimension (DxWxH, mm): 250x500x246 | |
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