Electrothermal Synergistic Catalyst Evaluation Apparatus

Product features:

The core advantage of this device lies in its dual-mode heating synergistic design, which can realize the joint regulation of electric field and thermal field, and accurately evaluate catalytic performance under different electrothermal coupling conditions. It adopts PLC + touch screen integrated control system, realizing fully automated operation from feeding, reaction to data collection. The built-in safety protection mechanism ensures experiment safety. Compared with traditional single-heating catalyst evaluation devices, it can more truly restore the actual reaction environment of industrial catalytic processes, effectively reducing the deviation between laboratory test results and industrial application effects. It also supports remote data monitoring and export, facilitating researchers to efficiently organize and analyze experimental data.

Product specifications:

Overall dimensions: 1200mm(W) × 800mm(D) × 1600mm(H); Net weight: 850kg; Temperature control range: Ambient to 800°C with ±1°C accuracy; Pressure tolerance range: 0-10bar (optional 15bar); Gas flow control range: 10mL/min to 5000mL/min with dual-path gas inlet system; Sample treatment capacity: 0.5-50mL; Data collection frequency: 1Hz to 10kHz; Data storage capacity: Supports storage of over 1000 sets of experimental data; Equipped with USB and Ethernet interfaces for remote monitoring and data export; Passed CE safety certification and meets ASTM international test standard requirements.

Product application:

This electrothermal synergistic catalyst evaluation apparatus is widely applicable to environmental protection industry VOC catalytic oxidation catalyst development, new energy field methane steam reforming catalyst evaluation, fine chemical intermediate synthesis catalytic testing and other scenarios. It is suitable for college and university catalytic mechanism research laboratories, industrial catalyst manufacturers' small-scale catalyst screening, and scientific research institutions' catalytic reaction parameter optimization research. It can help researchers quickly screen high-performance catalysts and accelerate the progress of catalytic technology industrialization.