Pushing the boundaries of photochemistry and materials synthesis requires equipment that can simulate extreme conditions while delivering precise light activation.
Enter the Autoclave High Pressure Photoreactor – a groundbreaking instrument designed to revolutionize research where pressure and light converge.
Basic Technical Specifications:
1. Volume: 100/250/500/1000ml (customizable)
2. Material: 316L (other special materials customizable)
3. Structure: Flange type
4. Heating method: electrical heating.
5. Temperature: RT-300°C (customizable)
6. Pressure: -0.1-10MPa (customizable)
7. Agitation Method: magnetic stirring, speed max 1500RPM.
8. Interfaces on the lid: temperature sensor, pressure gauge & rupture disc, gas inlet, vent, sight glass port,
9. Power Supply: AC220V, 50HZ/60HZ
10. Control: Touch screen control, PID self-tuning temperature control.
Why Choose This Advanced High Pressure Photocatalytic Reactor?
Our system is engineered for performance, safety, and versatility:
1. Unparalleled Pressure + Light Synergy: This is the defining feature. Conduct photocatalytic reactions – like hydrogen production, advanced oxidation processes (AOPs), CO2 reduction, or organic synthesis – under conditions impossible for standard photoreactors.
2. Engineered for Safety & Reliability: the reactor features robust construction (often high-grade stainless steel or alloys like Hastelloy), multiple safety interlocks, pressure relief systems, and leak-proof seals. This ensures secure operation even during demanding high-pressure photocatalytic experiments.
3. Precisely Controlled Irradiation: The integrated light system offers customizable light sources (LEDs, lamps), wavelength selection, and often intensity control.
4. Comprehensive Monitoring & Control: Expect precise regulation and monitoring of critical parameters: pressure, temperature, stirring speed, and reaction duration.
5. Material Versatility: Designed to handle corrosive reagents and demanding conditions, making it suitable for a wide range of chemistry, including aqueous and non-aqueous systems.
6. Scalability & Research Breadth: While ideal for lab-scale discovery and optimization, insights gained are crucial for scaling processes. This High Pressure Photocatalytic Reactor is indispensable for fields like:
6.1 Green Chemistry: Photocatalytic water splitting for H2, CO2 valorization.
6.2 Environmental Remediation: High-pressure AOPs for degrading persistent pollutants.
6.3 Advanced Materials Synthesis: Creating novel nanomaterials, MOFs, or composites under pressure and light.
6.4 Pharmaceutical Research: Exploring new photochemical reaction pathways.
6.5 Catalysis Development: Testing catalyst stability and activity under realistic, harsh conditions.
For more information, please visit us:
https://njhjchem.com/product/high-pressure-reactors/autoclave-high-pressure-photoreactor-photocatalytic-reactor/
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