The Micro-channel photoreactor FQ, sourced from the cutting-edge technology of 3S-Tech, stands as a testament to the merging of advanced materials and innovative engineering. This sophisticated piece of equipment harnesses the energy of light to catalyze chemical reactions, opening up new horizons in research and industrial applications. Here are the core characteristics that define the Micro-channel photoreactor FQ:

1. High-Intensity LED Array

Powerful Illumination: Featuring a high-power LED array capable of delivering up to 1200W of electrical power, the reactor ensures maximum light penetration and absorption by reaction media.

Wavelength Versatility: With LED wavelengths ranging from 365-975nm, users can select the optimal wavelength tailored for their specific photochemical reaction, enabling precise control over reaction pathways.

2. Microfluidic Reactor Design

Efficient Mixing & Reaction: The FQ series incorporates microfluidic reactor designs, such as the FP-500/1000/4000 mLplate microchannel, which enhance mixing efficiency and ensure uniform distribution of light and reactants, leading to faster reaction rates and higher yields.

Scalability: Available in various capacities (500mL, 1000mL, 4000mL), the reactor can be scaled up or down to match the needs of different research projects or production scales.

3. Temperature & Pressure Control

Precision Temperature Regulation: Options for temperature-controlled environments allow for precise management of reaction temperatures, critical for many photochemical processes.

Pressure Resistance: Designed to withstand pressures up to 0.3 MPa, the reactor can handle a wide range of reaction conditions, including those requiring elevated pressures.

4. Advanced Materials & Durability

Optical Transparency: The use of polymer materials for the reactor's light-transmitting components ensures high transparency and durability, minimizing light loss and maximizing reaction efficiency.

Corrosion Resistance: Selected materials are resistant to corrosion by common reactants and solvents, extending the reactor's lifespan and reducing maintenance costs.

5. Customizable & Modular Design

Interchangeable Light Sources: The reactor supports the replacement of light sources, allowing researchers to adapt the system to new or evolving reaction protocols.

Modular Upgrades: The modular design facilitates future upgrades or expansions, ensuring the reactor remains a versatile tool as research needs evolve.

6. High Throughput & Productivity

Continuous Flow Reactors: Models like the FP-6000 offer continuous flow capabilities, enabling high-throughput processing and daily outputs ranging from 5 to 30 kg of product, making it ideal for industrial-scale applications.

Energy Efficiency: The reactor's design optimizes energy usage, balancing high performance with minimal power consumption, aligning with sustainable practices.

7. Safety & User-Friendly Operation

Robust Safety Features: Incorporating multiple safety mechanisms to protect against overheating, pressure buildup, and other potential hazards, ensuring safe and reliable operation.

Intuitive Control Interface: The reactor is equipped with an easy-to-use control panel and software, allowing researchers to monitor and adjust reaction parameters in real-time.

Conclusion

The Micro-channel photoreactor FQ, with its combination of high-intensity LED lighting, advanced reactor design, customizable features, and robust safety measures. It is poised to revolutionize research and industrial processes by enabling more efficient, scalable, and sustainable photochemical reactions. Whether you're a researcher exploring new chemical pathways or an industrialist seeking to optimize production processes, the FQ reactor offers unparalleled performance and versatility.