PLR-RP series photothermal catalytic reaction evaluation device Introduction: Traditional chemical reactions mainly activate reactants through heating, providing energy across thermodynamic barriers to the system and promoting the transformation of reactants into products. In a thermal catalytic system, reactant molecules adsorb and activate on the catalyst surface, changing the chemical reaction pathway and reducing the activation energy to facilitate the reaction. Photocatalysis, on the other hand, utilizes the energy of photons to catalyze reactions. The reaction mechanism and pathway are completely different from thermal catalysis, and the reaction conditions are mild and easy to operate. In recent years, with the gradual deepening of catalytic research, scientists have discovered that photothermal synergistic catalysis can not only improve the efficiency of catalytic reactions, but also convert low-density solar energy into high-density chemical energy. The effective combination of the two can surpass the effects that can be achieved by thermal catalysis and photocatalysis alone. Moreover, by changing the reaction conditions, the activity and selectivity of the reaction can be regulated, which has immeasurable value in the fields of energy and environment and is currently the research focus of new catalytic technologies. Our company has launched the PLR-RP series photothermal catalytic reaction evaluation device, which provides a platform for systematic research on photothermal catalytic reactions. The innovative quartz column light guiding method and reactor design improve the irradiation efficiency of the light source and the absorption area of the catalyst, meeting the needs of gas-solid phase reactions under photothermal synergistic catalysis. Application areas: Atmosphere sintering of catalyst materials; Activity evaluation of catalyst materials; Gas solid phase photothermal catalytic reaction; Photothermal catalytic degradation of gas pollutants characteristic: 1. A brand new lighting system to improve the efficiency of light utilization. The PLR-RP series photothermal catalytic reaction evaluation device is equipped with a four stage temperature management structure. Including gas preheating system, pipeline heat tracing structure, reaction system, and condensation separation system. And real-time monitoring of the temperature and pressure throughout the reaction process in the preheating chamber, pipeline heat tracing belt, heating jacket, and reaction chamber is carried out to better simulate the chemical reaction process of photothermal catalysis. 2. Carefully designed temperature control structure to improve the efficiency of thermal energy utilization. The PLR-RP series photothermal catalytic reaction evaluation device is equipped with a four stage temperature management structure. Including gas preheating system, pipeline heat tracing structure, reaction system, and condensation separation system. And real-time monitoring of the temperature and pressure throughout the reaction process in the preheating chamber, pipeline heat tracing belt, heating jacket, and reaction chamber is carried out to better simulate the chemical reaction process of photothermal catalysis. 3. Flexible and diverse configuration, experience customized level services. The PLR-RP series photothermal catalytic reaction evaluation device has different configurations from multiple dimensions such as reaction chamber, lighting mode, and reaction temperature and pressure conditions, in order to meet the needs of photothermal catalytic reactions with different reaction rates and conditions as much as possible. There are two types of reaction chambers: vertical furnace and horizontal furnace; 4. The secondary alarm function provides safety protection for the experiment. The PLR-RP series photothermal catalytic reaction evaluation device is designed with a dual protection mechanism for temperature and pressure exceeding limits in hardware program control and software, making the photothermal reaction safer and more reassuring. 5. There are various sampling methods available for online analysis of gas products. The PLR-RP series photothermal catalytic reaction evaluation device is equipped with a separate gas matching port, which is suitable for gas calibration;
Introduction: Traditional chemical reactions mainly activate reactants through heating, providing energy across thermodynamic barriers to the system and promoting the transformation of reactants into products. In a thermal catalytic system, reactant molecules adsorb and activate on the catalyst surface, changing the chemical reaction pathway and reducing the activation energy to facilitate the reaction. Photocatalysis, on the other hand, utilizes the energy of photons to catalyze reactions. The reaction mechanism and pathway are completely different from thermal catalysis, and the reaction conditions are mild and easy to operate. In recent years, with the gradual deepening of catalytic research, scientists have discovered that photothermal synergistic catalysis can not only improve the efficiency of catalytic reactions, but also convert low-density solar energy into high-density chemical energy. The effective combination of the two can surpass the effects that can be achieved by thermal catalysis and photocatalysis alone. Moreover, by changing the reaction conditions, the activity and selectivity of the reaction can be regulated, which has immeasurable value in the fields of energy and environment and is currently the research focus of new catalytic technologies. Our company has launched the PLR-RP series photothermal catalytic reaction evaluation device, which provides a platform for systematic research on photothermal catalytic reactions. The innovative quartz column light guiding method and reactor design improve the irradiation efficiency of the light source and the absorption area of the catalyst, meeting the needs of gas-solid phase reactions under photothermal synergistic catalysis. Application areas: Atmosphere sintering of catalyst materials; Activity evaluation of catalyst materials; Gas solid phase photothermal catalytic reaction; Photothermal catalytic degradation of gas pollutants
