The laboratory mini flat-panel reactor can explore basic catalytic experimental methods and process conditions. However, when further applied to outdoor environments, the laboratory mini flat-panel reactor has a small light exposure area and requires an increase in the light exposure area to improve light absorption performance. On one hand, a square meter-level flat-panel photochemical reactor has a large light exposure area, which can fully utilize sunlight; moreover, increasing the light exposure area allows for scalability verification of experiments. On the other hand, transitioning from laboratory applications to outdoor applications introduces some environmental uncertainties, requiring outdoor experimental validation, including optimization of reactor materials, heat transfer, mass transfer efficiency, and large-area catalyst loading processes.
| Reactor Size | Effective Area 1 m² |
| Reactor Material | Ultra-white Tempered Glass |
| Atmospheric Monitoring | Temperature, Pressure, Humidity |
| Gas Flow Meter | Thermal Type, 0~100 mL/min H₂ |
| Heat Exchanger | Heat Transfer Area Up to 0.7 m² |
| Power Supply | AC 380 V, 22.8 A, Three-Phase Four-Wire |
| Operating Pressure | Atmospheric Pressure |
| Circulation Flow | 7 L/min (Maximum Flow for Aqueous Solution, Adjustable) |
| Water Quality Analysis | pH Meter, ORP Electrode |
| Irradiance Meter | Thermopile Type, 400 mW/cm² Threshold Up to 1W and Above |
| Low-Temperature Constant Temperature Bath | Volume 20 L, Lowest Temperature -30℃, Maximum Cooling Capacity 2.5 kW |
| Air-Cooled Heat Dissipation | AC 220 V, 14.5 A |
