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Traitement de l'eau potable Charbon actif

Buy Drinking Water Treatment Activated Carbon

Activated carbon (AC) is a highly porous material used in drinking water treatment to remove contaminants through adsorption.
 
It’s produced from carbon-rich sources like coal, wood, or coconut shells, heated to create a vast internal surface area. This allows AC to effectively trap:
 
  • Organic compounds (pesticides, solvents, taste/odor chemicals)
  • Disinfection byproducts (THMs)
  • Chlorine (improving taste/odor)
  • Some microplastics and emerging contaminants.
 
Used in filter cartridges (point-of-use) or large granular (GAC)/ powdered (PAC) beds (municipal plants), AC significantly enhances water quality and safety.
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Les défis de l'industrie

Limites techniques

  • Performance Variability: Adsorption efficiency declines over time due to pore blockage and competitive adsorption (e.g., calcium accumulation), complicating performance evaluation.
  • Selective Removal: Effectively removes chlorine, organic compounds, and disinfection byproducts (e.g., haloacetic acids) but struggles with nitrates, certain bacteria, and some PFAS (only ~50% reduction). It also shows limited efficacy against trihalomethane precursors.
  • Ozonation Byproducts: When combined with ozone (O₃-BAC process), it risks generating bromate or aldehydes if not meticulously controlled.

Operational & Environmental Issues

  • Biofilm Risks: Biological activated carbon (BAC) filters may cause microbial leakage if biofilm management fails, compromising water safety.
  • Material Degradation: Regeneration of spent carbon remains technically challenging; acid/base washing is often needed but not universally effective.
  • Resource Constraints: Production relies on restricted raw materials (e.g., coal, coconut shells), with quality inconsistencies affecting output.

Regulatory and Industry Gaps

  • Standardization Deficits: Lack of uniform evaluation metrics (e.g., reliance on iodine/methylene blue values alone ignores granularity effects) and evolving regulations challenge consistent compliance.
  • Supply Chain Pressures: Stricter environmental policies increase production costs and limit material sourcing options.

types de charbon actif apparentés

颗粒活性炭(granular activated carbon)

Charbon actif en grains (CAG)

  • Valeur en iode : 600-1200
  • Taille des mailles : 1×4/4×8/8×16/8×30/12×40/20×40/20×50/30×60/40×70 (autres tailles sur demande)
  • Densité apparente : 400-700
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Charbon actif à piliers

Charbon actif en pastilles

  • Valeur de l'iode : 500-1300
  • Taille des mailles : 0,9-1mm/1,5-2mm/3-4mm/6mm/8mm(autres tailles sur demande)
  • Densité apparente : 450-600
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粉末活性炭(Poudre de charbon actif)

Charbon actif en poudre

  • Valeur de l'iode : 500-1300
  • Maillage : 150/200/300/350 (autres dimensions sur demande)
  • Densité apparente : 450 - 550
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蜂窝活性炭(Charbon actif en nid d'abeille)

Charbon actif en nid d'abeille

  • Valeur en iode : 400-800
  • Taille des mailles : 100×100×100mm/100×100×50mm (densité cellulaire personnalisée sur demande)
  • Densité apparente : 350-450
  • Diamètre de l'alésage:1.5-8mm
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Charbon actif en coquille de noix de coco

  • Indice d'iode : 700-1200 mg/g
  • Surface : 700-1200 m²/g
  • Densité apparente : 320-550 kg/m³
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Charbon actif en coque de noix

  • Indice d'iode : 700-1200 mg/g
  • Surface : 700-1200 m²/g
  • Densité apparente : 320-550 kg/m³
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Charbon actif à base de charbon

Charbon actif à base de charbon

  • Indice d'iode : 700-1200 mg/g
  • Surface : 700-1200 m²/g
  • Densité apparente : 300-650 kg/m³
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Charbon actif à base de bois

  • Indice d'iode : 700-1200 mg/g
  • Surface : 700-1200 m²/g
  • Densité apparente : 320-550 kg/m³
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Carbone physiquement activé

  • Méthode d'activation : Activation par vapeur/gaz à haute température
  • Structure des pores : Dominée par les micropores, distribution uniforme des pores
  • Profil environnemental : Sans produits chimiques, faible teneur en cendres
  • Applications principales : Adsorption en phase gazeuse, purification de l'eau potable
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Carbone activé chimiquement

  • Méthode d'activation : Activation chimique (par exemple, H₃PO₄/ZnCl₂) à des températures modérées.
  • Structure des pores : Riche en mésopores, surface plus élevée
  • Efficacité du processus : Temps d'activation plus court, rendement plus élevé 30-50%
  • Post-traitement : Lavage à l'acide nécessaire pour éliminer les résidus
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Charbon actif imprégné

  • Fonctionnalisation : Chargé d'agents actifs (par exemple, I₂/Ag/KOH)
  • Adsorption ciblée : Amélioration de la capture de polluants spécifiques (par exemple, Hg⁰/H₂S/gaz acides).
  • Personnalisation : Optimisation chimique pour les contaminants ciblés
  • Applications principales : Traitement des gaz industriels, protection CBRN
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Pourquoi utiliser notre charbon actif

Superior Adsorption Performance

Our activated carbon has a designed pore structure which provides unparalleled high contaminant removal efficiencies for traps a wide-range of pollutants including micropollutants and disinfectants byproducts, with consistent performance, even under changing water quality conditions.

Enhanced Operational Safety

We guarantee zero chemical additives and strictly controlled activation processes that eliminate leachable impurities while minimizing biofilm formation risks through uniform surface properties for safer water treatment operations.

Sustainable Material Sourcing

Produced from responsibly sourced raw materials with verifiable supply chains, our activated carbon meets stringent environmental standards throughout manufacturing while maintaining a lower carbon footprint.

Technical Integration Support

We provide customizable particle size distributions compatible with all filtration configurations alongside comprehensive technical documentation to ensure seamless system integration and regulatory compliance.

Processus et technologie

1. Adsorption of Organic Micropollutants

Aperçu de la solution

Activated carbon (AC) in granular (GAC) or powdered (PAC) form physically adsorbs persistent organic contaminants like pesticides and pharmaceuticals through its porous structure.

Principaux avantages

  • Broad-spectrum removal of diverse micropollutants
  • Chemical-free treatment mechanism
  • Flexible deployment options (direct dosing or fixed-bed filtration)

2. Combined Oxidation-Biological Processes

Aperçu de la solution

Ozone or permanganate pre-oxidation followed by Biological Activated Carbon (BAC) filtration, where oxidation breaks complex organics into biodegradable fragments metabolized by AC-colonized biofilms.

Principaux avantages

  • Enhanced removal of recalcitrant compounds via biodegradation
  • Extended operational lifespan through biological regeneration
  • Synergistic contaminant removal efficiency

3. Disinfection Byproduct Control

Aperçu de la solution

AC filters capture natural organic matter (DBP precursors) and adsorb formed byproducts like trihalomethanes at pre- or post-disinfection stages.

Principaux avantages

  • Dual-action against precursors and formed byproducts
  • Regulatory compliance support without disinfection compromise
  • Reduced reformation potential during chlorination

4. Long-Term Biological Filtration

Aperçu de la solution

Aged GAC transitions into biological filters where microbial communities dominantly degrade organic matter, sustaining performance beyond adsorption capacity.

Principaux avantages

  • Self-sustaining operation through microbial activity
  • Temperature-resilient performance in warm conditions
  • Reduced waste generation via extended service life

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