PLR DPCT-O50 Small Coil-Type Photoreactor includes the reactor, light source, support frame, electrical control cabinet, etc. The project realizes a small coil-type photochemical reactor with a few dozen milliliters of liquid capacity, and the light source meets the need for higher power usage. It adopts a plate-like microchannel device appearance and structural design, with the main body being a square frame, which facilitates future multi-position expansion and application.
Millimeter-level feature dimensions, tubular reaction channel
Several dozen milliliters liquid capacity, continuous flow photoreactor
Dual light source with double-sided irradiation, high light power density
Multi-wavelength LED light source, supports diversified expansion
Built-in water cooling system, efficient and stable operation of the light source
| Technical Parameters | |
| Reaction Tube | 1/4 in × 1/8 in (Outer Diameter × Inner Diameter), FEP/PFA (Other millimeter-sized tube diameters available) |
| Liquid Capacity | About 50 mL, double-layer interlaced coil (Other liquid capacities available) |
| Operating Range | 0 ~ 1 MPa, -20 ~ 80°C |
| Optical Window | Effective area approximately Ф200 mm, quartz optical window |
| Light Source Wavelength | 450 nm, compatible with other wavelengths (255 ~ 760 nm) |
| Light Source Power | 300 W (rated electrical power, 10 ~ 100%), other power options available, maximum 1 kW |
| Light Source Emission Area | Approximately 200 × 200 mm |
| Dimensions | 430 × 360 × 570 mm |
As the "massless reagent" of photochemical reactions, the uniformity of photon distribution directly affects the conversion rate and selectivity of reactions.
The PLR DPCT-O50 Small Coiled-Tube Photoreactor adopts a double-sided LED light source with opposite irradiation design, delivering an effective illumination area of 200×200 mm. According to the Beer-Lambert Law, unilateral illumination causes exponential light intensity attenuation when penetrating the reaction solution. In contrast, double-sided opposite irradiation effectively compensates for the radial "dark zones" caused by one-sided illumination through symmetric superposition of light fields. This design provides high optical power density while significantly flattening the radial light intensity gradient of the fluid inside the tubes.
For reaction systems extremely sensitive to "light exposure dose", the device features a 2D planar spiral coiled tube (mosquito-coil-shaped) configuration, with advantages in the following aspects:
The device is equipped with a standard chiller, controlling the operating temperature of the reaction tubing within a wide range of -20 to 80°C.
The light source has an electrical power of up to 300 W (rated electrical power, with a power adjustment range of 10% to 100%). Customized electrical power specifications are also available, with an upper limit expandable to 1 kW. While the light source outputs high-intensity photons, the water cooling system rapidly dissipates waste heat generated by non-radiative transitions of LEDs and heat converted from light energy absorbed by the reaction system. Through an independent efficient heat exchange mechanism, it achieves effective "decoupling" of photon flux and system temperature, ensuring constant temperature of core reaction materials and thus guaranteeing high reproducibility of experimental data.
The main body adopts a square bracket design. This industrial structure not only occupies a small footprint but also facilitates subsequent multi-station series connection and process scale-up expansion.
Applicable Systems: Homogeneous liquid phase systems, gas-liquid / liquid-liquid two-phase systems.
Typical Applications:
