φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode

Product Details
Customization: Available
Type: Metal Electrode
Cooling System: Radiator
Still deciding? Get samples of US$ 3.59/Piece
Request Sample
Manufacturer/Factory, Other, Group Corporation
Gold Member Since 2016

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Registered Capital
32800000 HKD
Plant Area
>2000 square meters
  • φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
  • φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
  • φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
  • φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
  • φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
  • φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
Find Similar Products
  • Overview
  • Detailed Photos
  • Product Parameters
  • Product Description
  • Installation Instructions
  • Packaging & Shipping
  • Certifications
  • Our Advantages
  • FAQ
Overview

Basic Info.

Model NO.
TRIE SERIES
Function
Over Voltage Protection, Overheat Protection, Short Circuit Protection
Materials
Titanium Electrode
Working Current
0.8A
Operating Voltage
5V
Electrolyte Temperature
25~40ºC
Certification
ISO9001/ISO14001/ISO45001
Support Customization
Yes
Transport Package
Individual Packing + Wooden Box
Specification
φ 29.5*1.0mm double-sided coating
Trademark
CHB or customization
Origin
China
Production Capacity
500000PCS

Product Description

 
Detailed Photos

 


φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode

φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
 
Product Parameters
Size φ29.5*1.0mm
Working current: 0.8A
Operating voltage 5V
Electrolyte temperature 25~40ºC
Support customization YES
 
Product Description

Working Principle of Ruthenium-Iridium Electrolysis Plate for Electrolyzing Sodium Hypochlorite

The ruthenium-iridium electrolysis plate functions in the electrolysis of sodium hypochlorite by leveraging the principles of an electrolytic cell and the catalytic effects of ruthenium-iridium oxide. Here's a detailed explanation of its working principle:

  1. Electrolytic Cell Setup:
    • The electrolytic cell comprises a cathode, an anode (the ruthenium-iridium electrolysis plate), and an electrolyte solution (typically a chloride-containing aqueous solution, such as brine).
    • The ruthenium-iridium oxide coating on the anode exhibits excellent conductivity and catalytic activity.
  2. Electrolysis Process:
    • When a direct current power source is applied, reduction and oxidation reactions occur at the cathode and anode, respectively.
    • At the anode (ruthenium-iridium electrolysis plate), chloride ions (Cl-) lose electrons and combine with hydrogen ions (H+) in the water, generating hypochlorous acid (HClO) and hydroxide ions (OH-). Hypochlorous acid is the primary active ingredient in electrolyzed sodium hypochlorite, known for its strong oxidizing properties.
    • The simplified electrolytic reaction can be expressed as: 2Cl- + 2HO → 2HClO + H2↑ + 2e- (Note: This equation is a simplification; in reality, hydrogen gas formation primarily occurs at the cathode, and the reaction is more complex).
  3. Formation of Sodium Hypochlorite:
    • In practical applications, to obtain sodium hypochlorite (NaClO), the electrolytic conditions are controlled to facilitate the combination of hypochlorous acid with sodium ions (Na+) in the solution, forming sodium hypochlorite.
    • Sodium hypochlorite is a potent oxidant capable of disrupting cell membranes, proteins, nucleic acids, and other biological molecules, effectively killing bacteria, viruses, and other microorganisms.
  4. Advantages:
    • The ruthenium-iridium electrolysis plate exhibits excellent corrosion resistance and electrochemical stability, enabling long-term operation in harsh electrolytic environments.
    • The electrolysis process produces sodium hypochlorite, which is non-toxic, leaves no residue, and is environmentally friendly.

Applications of Disinfection Machines

Disinfection machines, operating through mechanical principles to generate physical or chemical disinfectants to eradicate harmful organisms, have diverse applications:

  1. Medical Sector:
    • Disinfection of hospital wards, operating rooms, laboratories, and other facilities to prevent cross-contamination.
    • Sterilization of medical instruments, surgical tools, beds, and other equipment to ensure medical safety.
  2. Daily Life:
    • Sanitizing households, such as wardrobes, shoe cabinets, clothing, bedding, floors, etc.
    • Disinfecting kitchens, bathrooms, and other areas prone to bacterial growth to maintain healthy living conditions.
  3. Public Spaces:
    • Disinfecting schools, kindergartens, offices, malls, restaurants, and other public venues to enhance public hygiene.
    • Sanitizing public transportation (e.g., buses, subways) to reduce the risk of virus transmission.
  4. Special Environments:
    • Disinfecting industrial production lines, food processing factories, livestock farms, and other specialized environments to ensure production safety and product quality.
    • Sterilizing scientific research laboratories, biosafety laboratories, and other high-demand environments to prevent the spread of harmful microorganisms.
  5. Other Applications:
    • As vital epidemic prevention equipment, disinfection machines are used to rapidly and efficiently eliminate airborne viruses and bacteria.
    • In environmental protection, they treat wastewater and exhaust gases, reducing pollutant emissions.

In summary, the ruthenium-iridium electrolysis plate plays a crucial role in the electrolysis of sodium hypochlorite, while disinfection machines, with their wide range of applications and effective disinfection capabilities, are instrumental in safeguarding public health and production safety.
φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic ElectrodeHome disinfection
φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
 

Installation Instructions
Put a set of ruthenium-iridium electrolytic sheets into the bottom of the container, add 20g salt and 200ml water, and after chemical reaction, the disinfection water produced can be directly used for home disinfection.

φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode

Packaging & Shipping

φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode

Certifications

φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode


 

Our Advantages

Our factory located in Baoji, China's titanium industry base, with a strong R & D team and production capacity. Efficient to provide customers with customized services.


φ 29.5*1.0mm, Double-Sided Coating, Titanium-Ruthenium-Iridium Electrolytic Electrode
FAQ


Question 1: We are very satisfied with this product. Can I customize my logo on the product?
Answer 1: Of course. We offer customized services.

Question 2: I want to adjust the size of this product to meet our needs, can you meet it?
Answer 2: Yes, this exhibit is our standard, it's only for reference. Please provide your specific requirements or drawings, we will customize for you.

Question 3: What's the lead time for this product?
Answer 3: 3-5days.

Question 4: What's the lead time for customization?
Answer 4: Sample delivery time of fixed products: 3-5days.  Mass production delivery time: 21-30 days.









 

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier