PLC-GDH I gas diffusion heterogeneous continuous catalytic reaction platform Introduction: The PLC-GDHC I gas diffusion heterogeneous continuous catalytic reaction platform is suitable for: photocatalytic CO2 reduction reaction; Photocatalytic ammonia synthesis reaction; Photocatalytic nitrogen fixation reaction; Photocatalytic alkane conversion reaction; Photocatalytic degradation of gaseous pollutants characteristic: 1. It is applicable to gas-solid phase photocatalytic reaction, and water and gas are allowed to participate; 2. The reactor is equipped with a gas diffusion layer to realize uniform mass transfer and diffusion of gas; 3. Strong gas circulation power, gas mixing time < 10 min; 4. Integrated body design, standard light source wavelength can be replaced. Technical parameters: Flow control: flow control range: 3~100 mL/min; Air circuit selection: 1 circuit of air inlet is standard; Temperature control: reaction temperature: 5-80 ℃; Heating mode: thermostatic bath temperature control; Pressure control: system withstand voltage/gauge pressure: 0.2 MPa; Pressure measurement/gauge pressure: - 1~1MPa, ± 0.25% F.S; Pressure control range: -0.08~0.3 MPa; Pressure stability: 0.01 MPa; Integrated light source: standard electric lifting frame and white LED, with a wavelength range of 400~800 nm, can support light sources of different kinds of wavebands; Optical window characteristics: effective transmission wavelength range 0.19~5 μ m. Diameter 35 mm; Reactor gas volume: 120 mL; Liquid filling volume: the filling volume limit is 10 mL; Catalyst placement mode: powder material is paved on porous hydrophobic gas diffusion layer; Gas diffusion layer size: Φ 37~ Φ 40 mm; Effective size: Φ 35 mm; Body material: high temperature resistant plastic sprayed metal plate, 316L stainless steel valves and pipe fittings; Gas diffusion chamber material: aluminum alloy oxidation material; Material of main intake chamber: high borosilicate glass
Introduction: The PLC-GDHC I gas diffusion heterogeneous continuous catalytic reaction platform is suitable for: photocatalytic CO2 reduction reaction; Photocatalytic ammonia synthesis reaction; Photocatalytic nitrogen fixation reaction; Photocatalytic alkane conversion reaction; Photocatalytic degradation of gaseous pollutants
