SSC-PTCR Photothermal Catalytic Reaction System Introduction: The catalytic reaction of converting solar energy into thermal energy and converting it into chemical energy, known as photothermal catalytic reaction. According to the different levels of energy conversion pathways and the catalytic effects of thermal energy and electron excitation, photothermal catalysis can be classified into light assisted thermal catalysis, heat assisted photocatalysis, and photothermal synergistic catalysis. The SSC-PTCR photocatalytic reaction system achieves dual light source irradiation, improves the energy output of photothermal reaction, accelerates the progress of photocatalytic experiments, and can monitor catalyst temperature in real time; The supporting quality flow PLC control system enables arbitrary matching of various reaction gases, which is more conducive to experimental adjustment and formula development. The SSC-PTCR photocatalytic reaction system, combined with temperature control and magnetic stirrer, can be directly upgraded to a kettle type photothermal catalytic system, which can achieve multi use and evaluate the activity of catalysts in multiple systems. characteristic: 1) Independently developed temperature control system to prevent temperature overshoot; 2) Equipped with sapphire crystal windows, it has high strength, high hardness, high temperature resistance, abrasion resistance, corrosion resistance, good light transmission performance, and excellent electrical insulation performance; 3) Internal magnetic stirring; 4) The platform contains a powder catalyst and allows for sufficient contact between the gas and the catalyst; 5) Both gas-solid and gas-liquid reactions can be achieved inside the kettle body; 6) Realize material catalysis under high pressure (<5MPa) and high temperature (<250 ℃); 7) Flange double line sealing technology solves the problem of sealing leakage; 8) Equipped with high-quality needle valves, three-way ball valves, and pressure gauges, it achieves flexible control of the kettle pressure; 9) Configuring a safety unloading valve adds another layer of safety to the experimental safety environment; 10) The kettle is equipped with an alarm, which automatically cuts off the heating power supply in case of overheating or overpressure, making the operation safer; 11) The reaction kettle also adopts a double groove flexible seal, which solves the leakage problem of mixing with a good sealing structure, allowing the entire medium and mixing components to work in a sealed state. Therefore, it is more suitable for mixing reactions with various flammable, explosive, valuable media and other highly permeable chemical media. Technical parameters: Parameter Name: SSC-PTCR Photothermal Catalytic Reaction System Kettle volume: 100ml/200ml/500ml (customizable) Design temperature: 350 ℃ (customizable) Operating temperature: 50-250 ℃ Heating method: electric heating Design pressure: 5MPa (customizable) Use pressure: <3MPa Material of kettle body: 316L stainless steel (customizable) Mixing method: magnetic stirring Mixing speed: 200-2000rpm Heating power: 0.5-1.0kw
Introduction: The catalytic reaction of converting solar energy into thermal energy and converting it into chemical energy, known as photothermal catalytic reaction. According to the different levels of energy conversion pathways and the catalytic effects of thermal energy and electron excitation, photothermal catalysis can be classified into light assisted thermal catalysis, heat assisted photocatalysis, and photothermal synergistic catalysis. The SSC-PTCR photocatalytic reaction system achieves dual light source irradiation, improves the energy output of photothermal reaction, accelerates the progress of photocatalytic experiments, and can monitor catalyst temperature in real time; The supporting quality flow PLC control system enables arbitrary matching of various reaction gases, which is more conducive to experimental adjustment and formula development. The SSC-PTCR photocatalytic reaction system, combined with temperature control and magnetic stirrer, can be directly upgraded to a kettle type photothermal catalytic system, which can achieve multi use and evaluate the activity of catalysts in multiple systems.