● Differential photocatalytic reactions at high temperature and high pressure with low gas flow rates;
● Suitable for differential and integral photochemical reactions in gas-solid and liquid-solid phases;
● Independent control of gas flow rates in three channels, utilizing extra-thick quartz windows for photochemical reactions across the full spectrum;
● Equipped with secondary flow control valves and secondary pressure control valves, allowing separate control of three gas inlets.
▲ Particularly Suitable ● Moderately Suitable ○ Applicable
▲ Photodegradation of liquid pollutants (e.g., dyes, benzene, and benzene derivatives) ▲ Photocatalytic CO₂ reduction
▲ Other high-temperature and high-pressure (photo)chemical reactions
● Photocatalytic water splitting for hydrogen/oxygen production ● Photocatalytic total water splitting
● Photodegradation of gaseous pollutants (e.g., VOCs, formaldehyde, nitrogen oxides, sulfur oxides, etc.)
○ Photocatalytic quantum efficiency measurement ○ Photosynthesis ○ PEC (Photoelectrochemical) Reactions
● Reaction Temperature: Room temperature +10~300 °C (up to 380°C);
● Reaction Pressure: 1~10 MPa;
● Reaction Volume: 50 mL (customizable to 25 or 100 mL);
● Number of Gas Channels: 3;
● Total Gas Flow Rate: 1~60 mL/min;
● Equipped with a safety pressure relief valve (adjustable) of 7 MPa; temperature and pressure indicators for the reaction system;
● Independent high-pressure gas mixing chamber: 1 L, ensuring continuous and long-term gas supply during experiments; equipped with secondary flow control valves and secondary pressure control valves, allowing separate control of three gas inlets;
● End-point soap film flowmeter for gas flow rate monitoring (adjustable in a wide range from 10 to 60 mL/min);
● Overall design with a safety-integrated protective enclosure, ensuring the safety of the experiments;