The unique advantage of this unit is its micro-channel reactor design, which solves the pain point of poor heat and mass transfer in traditional batch reactors. The silicon carbide reactor material has excellent thermal conductivity and corrosion resistance, enabling rapid and uniform heating of the reaction system. The tool-free quick disassembly design allows rapid replacement of reactors, reducing downtime between tests and improving test efficiency. The high-frequency data acquisition system enables real-time monitoring of reaction parameters with a sampling rate of up to 100 Hz, providing accurate data for micro-scale catalytic reaction analysis. It also supports integration with micro-analytical equipment such as micro-gas chromatographs, enabling real-time analysis of micro-scale reaction products.
Micro-channel reactor dimensions: 100mm × 50mm × 2mm; Overall dimensions: 800mm × 500mm × 1200mm; Net weight: 120 kg; Power supply: 220V AC 50/60Hz; Heating rate: 0-20°C/min adjustable; Temperature uniformity: ±1°C; Flow control accuracy: ±0.5% of full scale; Data sampling rate: 100 Hz; Compatible with micro-gas chromatographs and mass spectrometers for product analysis; Support for electrochemical testing modules optional.
Suitable for micro-scale catalytic reaction research, including micro-reactor hydrogenation, photocatalytic water splitting, electrochemical catalysis, and micro-chemical synthesis. Typical use cases include evaluating the performance of micro-catalysts for portable fuel cells, optimizing reaction conditions for micro-scale pharmaceutical synthesis, and testing the performance of photocatalysts for micro-scale sewage treatment. It is an essential tool for micro-catalysis research and micro-chemical system development.
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