| Customization: | Available |
|---|---|
| Application Fields: | Chemical, Medical |
| Condition: | New |
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| Model | Current (A) | Fluorine Production Capacity (g/hr) | Fluorine Purity | Suitable Applications |
| 20-200A | 20A,50A,150A,200A | 12-120 | >90% | Semiconductor Industry,Chemical Vapor Deposition (CVD),Polymer Surface Fluorination,Inorganic Fluoride Synthesis,Medical and Laboratory Research |
| 250-500A | 250A,300A,400A,450A,500A | 150-300 | ||
| 550-1000A | 550A,700A,800A,1000A | 330-600 | ||
| 1500-2000A | 1500A,2000A | 900--1200 | ||
| 2500-10000A | 2500A,3000A,4000A,5000A,8000A,10000A | 1500--6000 |
The electrolytic fluorination reaction takes place at a controlled temperature. During the process, fluorine gas (F2) is produced at the anode and reacts with the raw materials. At the cathode, hydrogen gas (H2) is generated, which also carries a certain amount of HF out of the reactor.
Before the reaction, the raw materials are thoroughly mixed and dissolved with anhydrous HF in a dissolving tank. This mixture is then transferred to the electrolytic fluorination reactor for the reaction. Once the reaction is complete, the product is discharged into a collection tank for subsequent reactions or further purification.
The hydrogen gas released from the reactor contains traces of HF, which is partially condensed and returned to the reactor. The hydrogen gas then passes through a tail gas adsorption unit to remove any residual fluorine gas and HF before being safely vented.
The overall reaction for the electrolysis is:
2KHF2→2KF+H2↑+F2↑
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