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UHde BM 2.7 6Gen Anode Cell Titanium For Chlor-alkali (chlorine Alkali) Industry
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xProduct Details
| Unit Cell Specification | 2402*1285*62mm | Effective Area | 2.7 M² |
|---|---|---|---|
| Electrode Service Life | 8 Years | Operating Current | 12.16~16.2KA |
| DC Power Consumption | ≤2065kWH/t100%NaOH ( The Current Density5.1kA/m² ) | Unit Cell Voltage | ≤2.96V ( The Current Density5.1kA/m² ) |
| Material | Gr1 Titanium | ||
| Highlight | Chlor-alkali Anode cell titanium,UHde BM 2.7 Anode cell titanium,Industry 6Gen Anode cell titanium |
||
Product Description
The main purpose of the electrolytic cell anode half shell is to serve as part of the anode during the electrolysis process, and it mainly plays the following roles:
Current distribution: The anode half shell helps the current in the electrolytic cell to be evenly distributed to ensure that the electrolysis reaction occurs evenly and promote the improvement of product quality.
Protect and extend the life of the anode: The anode half shell is usually made of corrosion-resistant materials, which can protect the anode body from corrosion by the electrolyte, thereby extending the service life of the anode.
Structural stability: The anode half shell increases the mechanical strength of the anode, ensuring that the anode can remain stable during the electrolysis process and avoid deformation or damage.
Prevent impurity contamination: In some specific electrolysis processes, the anode half shell can prevent impurities or by-products in the electrolyte from entering the electrode system, keeping the electrolysis process pure.
Anode half shells are usually used in the extraction process of electrolytic copper, aluminum and other metals to improve production and efficiency through stable electrochemical reactions.
The anode of the electrolytic cell plays a vital role in the electrolysis process, mainly including the following aspects:
Current conduction: The anode is the positive electrode in the electrolytic cell, through which the current provided by the external power supply is introduced into the electrolyte, thereby driving the electrochemical reaction. The current enters the electrolyte through the anode and then flows to the cathode through the electrolyte.
Promoting oxidation reactions: During the electrolysis process, oxidation reactions occur on the anode side. For example, in the electrolysis of copper, copper ions are reduced from the electrolyte and deposited on the cathode, while the anode releases oxygen or other oxidation products.
Dissolving anode materials (consumable anodes): In some cases, the anode is made of soluble materials, and the anode itself will gradually consume with the electrolysis reaction, releasing metal ions into the electrolyte, such as the crude copper anode used in electrolytic refining of copper.
Anode product generation: In the electrolysis process that does not consume the anode (such as insoluble anodes), byproducts such as oxygen or chlorine are generated on the anode surface, which may be collected and used in industrial production.
Chemical balance of electrolyte: The role of the anode is not limited to providing current. It also regulates the chemical composition and pH value of the electrolyte by participating in chemical reactions, thereby maintaining the balance of the electrolyte.
In the industrial electrolysis process, the selection and design of the anode is crucial to reaction efficiency, product quality and cost control.
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