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Activated Carbon for Electroplating Wastewater Treatment
Characteristics: Black granular, strong adsorption ability for heavy metal ions (such as chromium, nickel, copper), organic additives, cyanides, etc. in electroplating wastewater, good chemical stability, acid and alkali resistance, suitable for complex water quality of electroplating wastewater.
Instructions for use: Used in electroplating wastewater treatment process to remove heavy metals and organic pollutants, and to discharge or reuse wastewater in compliance with standards.
Storage method: Store in a dry and ventilated place, moisture-proof, chemical resistant, and avoid mixing with oxidants.
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Product Introduction
Activated Carbon for Electroplating Wastewater Treatment
Our Activated Carbon for Electroplating Wastewater Treatment delivers industrial-grade purification with an iodine value reaching 800-1000mg/g and hardness exceeding 90%. Engineered by Shanxi Xinhuasheng Carbon Manufacturing Co., Ltd.—backed by 60+ a long time of R&D heritage—this dark granular arrangement successfully expels chromium, nickel, copper, natural added substances, and cyanides from complex wastewater streams. With dampness substance controlled underneath 10% and fiery remains substance as moo as 6%, you get reliable execution indeed in unforgiving chemical situations. Our defense-grade innovation guarantees your office meets release benchmarks whereas securing hardware from destructive damage.
Why Choose Our Carbon for Electroplating Applications?
Targeted Heavy Metal Removal
Your electroplating wastewater contains numerous contaminants that standard medicines miss. Our enacted carbon highlights optimized pore structures particularly planned for:
- Hexavalent chromium (Cr⁶⁺) capture
- Nickel and copper ion adsorption
- Cyanide compound elimination
- Organic brightener and leveler removal
The high methylene blue value (90-130mg/g) ensures effective removal of larger molecular pollutants common in plating baths.
Chemical Stability You Can Trust
Electroplating wastewater is unforgiving. pH levels swing wildly. Our carbon withstands:
- Strong acidic conditions (pH 2-4)
- Alkaline cleaning stages (pH 10-12)
- Oxidizing agents in rinse water
- Temperature fluctuations during treatment cycles
This durability means longer service life and lower replacement costs for your operation.
Performance Built for Industry
We understand production can't stop for treatment system failures. That's why our Activated Carbon for Electroplating Wastewater Treatment delivers:
Mechanical strength ≥90%: Resists breakage during handling and backwashing cycles
Low ash content (6-10%): Minimizes secondary pollution and filter clogging
Controlled moisture (≤10%): Maintains adsorption capacity during storage
High iodine value (800-1000mg/g): Provides massive surface area for contaminant capture
Technical Specifications
| Parameter | Specification |
|---|---|
| Iodine Value | 800-1000 mg/g |
| Hardness | ≥ 90% |
| Moisture Content | ≤ 10% |
| Ash Content | 6-10% |
| Methylene Blue Value | 90-130 mg/g |
| Appearance | Black granular |
| Chemical Stability | Acid and alkali resistant |
How to Use This Product Effectively
Step 1: Pre-treatment
Adjust wastewater pH to 6-9 range for optimal adsorption. Remove large suspended solids through filtration.
Step 2: Carbon Dosing
For batch treatment: Add 2-5 kg per cubic meter of wastewater (adjust based on contamination levels).
For continuous systems: Pack in fixed-bed columns with appropriate flow rates.
Step 3: Contact Time
Allow 30-60 minutes contact time for batch processes. For column systems, maintain 10-20 minutes Empty Bed Contact Time (EBCT).
Step 4: Separation
Remove spent carbon through sedimentation or filtration. Monitor effluent quality regularly.
Step 5: Carbon Regeneration or Disposal
Thermal regeneration possible for large-scale operations. Dispose of spent carbon following local hazardous waste regulations.
Storage and Handling Guidelines
Store your Activated Carbon for Electroplating Wastewater Treatment properly to maintain its effectiveness:
- Keep in dry, well-ventilated warehouses
- Protect from moisture using sealed containers or waterproof packaging
- Separate from oxidizing agents (hydrogen peroxide, chlorine, permanganates)
- Avoid contact with open flames
- Use first-in-first-out inventory rotation
- Handle with care to prevent excessive dust generation
Why Xinhuasheng Carbon Stands Apart
60+ A long time of Fabric Science Expertise
Our collaboration with Tsinghua College and the Chinese Foundation of Sciences brings cutting-edge carbon innovation to your treatment plant.
Defense-Grade Quality Control
We hold ISO 9001, ISO 14001, and ISO 45001 certifications. Each bunch experiences thorough testing some time recently shipment.
45,000 Tons Yearly Capacity
With generation bases over four areas, we keep up stock levels that guarantee conveyance inside 7-15 days for standard orders—or as quick as 3 days for critical needs.
Custom Arrangements Available
Every electroplating operation is interesting. We offer customization of pore structure, molecule estimate, and adsorption characteristics to coordinate your particular wastewater profile.
Frequently Asked Questions
What overwhelming metals can this actuated carbon expel from electroplating wastewater?
Our carbon viably adsorbs chromium (counting poisonous Cr⁶⁺), nickel, copper, zinc, cadmium, and lead. The adsorption capacity depends on your wastewater pH, metal concentration, and contact time. For complex multi-metal frameworks, we can conduct lab tests with your real wastewater tests to optimize treatment parameters.
How long does the actuated carbon final some time recently requiring replacement?
Service life changes based on contaminant stacking. Ordinarily, you'll see 3-6 months of viable operation in nonstop frameworks treating direct defilement levels. Screen your gushing quality—when overwhelming metal concentrations start rising in spite of satisfactory contact time, it's time for recovery or substitution. We give specialized bolster to offer assistance you build up ideal substitution schedules.
Can this carbon be recovered for fetched savings?
Yes. Warm recovery at 800-900°C can reestablish 70-85% of unique adsorption capacity. In any case, recovery requires specialized hardware and is most prudent for operations utilizing over 10 tons every year. For littler volumes, substitution with new carbon frequently demonstrates more cost-effective when you calculate in taking care of and vitality costs.
Does this item comply with natural release standards?
Our enacted carbon makes a difference your treated water meet GB 8978 (Coordinates Wastewater Release Standard) and industry-specific directions. The moo fiery debris substance (6-10%) guarantees negligible auxiliary contamination. Be that as it may, actuated carbon is one component of comprehensive treatment—you may require pH alteration, flocculation, or film filtration depending on your target release limits.
What makes your carbon different from cheaper alternatives?
Three critical factors: pore structure optimization for electroplating contaminants, superior hardness that prevents breakdown during backwashing, and controlled ash content that won't introduce new contaminants. Cheaper carbons often have high ash levels (>15%), lower hardness (<80%), and generic pore distributions that miss target pollutants. You'll use more product and replace it more frequently—eliminating any initial cost savings.
Get Your Water Treatment Solution Today
Ready to improve your electroplating wastewater compliance? Contact our technical team at greta@carbonxinhua.com for Activated Carbon for Electroplating Wastewater Treatment samples and application guidance.
Send Inquiry
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