High-efficiency Energy-saving Design:
The system matches two-chamber (anode and cathode) electrolytic cells with close electrode spacing, greatly enhancing mass transfer efficiency, reducing cell pressure, and lowering power consumption—positively impacting experimental product outcomes and costs;
Integrated Product Handling:
Provides a set of systems for product separation, drying, and measurement with a reserved collection port; users can collect samples for analysis themselves and directly use them in subsequent reactions, helping analysts easily perform product quantification;
Intelligent Control:
The system can measure and control electrolyte temperature, flow rate, and reaction pressure, offering rapid solutions for screening experimental conditions, accelerating R&D progress, and helping users expand more application directions;
Application Expansion:
The system provides values such as energy consumption and Faradaic efficiency calculations, helping analysts easily obtain precise experimental measurement data.
Electrocatalytic H2O (water) splitting — evaluation of hydrogen and oxygen production activity
Electrocatalytic CO2 reduction
Electrolysis of methanol aqueous solutions
Flow-phase photoelectrocatalytic reaction studies
MEA (membrane electrode assembly) performance testing
Catalytic degradation of liquid pollutants
| Product Parameters | ||||
| Output Voltage | Voltage Accuracy | Output Current | Current Accuracy | Reservoir Capacity |
| 0~12 V | 0.01 V | 0~20 A | 0.01 A | 100 mL |
| Circulation Flow Range | Hydrogen Flow Range | Oxygen Flow Range | Operating Pressure | Operating Temperature |
| 30~200 mL/min | 0~200 mL/min | 0~100 mL/min | 0~1.6 MPa (medium-pressure version) 0~0.3 MPa (standard-pressure version) |
10~90°C |
