wastewater treatment activated carbon
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Buy Wastwater Treatment Activated Carbon
Activated carbon plays an indispensable role in wastewater treatment processes by consistently providing an efficient and cost-effective means of removing an extensive variety of contaminants. Its unique porous structure and sizeable surface area provide excellent options for adsorbent technologies for purifying water in both industrial and municipal applications.
Herausforderungen für die Industrie
Microbial Regrowth & Water Quality Reversal
- Adsorbed organic pollutants promote bacterial growth in carbon pores, decomposing organics into nitrites/nitrates and causing secondary contamination instead of purification.
Inefficient Regeneration in Cold Climates
- Biological regeneration (e.g., BAC) fails in low-temperature regions, while traditional thermal/chemical regeneration is energy-intensive and disrupts operations.
Bromate Formation Risk
- Ozone-based regeneration in bromide-containing water generates carcinogenic bromate byproducts, requiring segregated wastewater discharge to avoid drinking water contamination.
Operational Optimization in Hybrid Systems
- Synergy with surfactants for sludge dewatering demands precise dosing sequences; incorrect ordering reduces efficiency significantly. In membrane systems (e.g., UF/PAC), excessive PAC accelerates fouling, necessitating strict load control.
Ambiguous Failure Criteria
- Reliance on adsorption indices (e.g., iodine value) poorly correlates with real-world pollutant removal, complicating timely carbon replacement/regeneration decisions.
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- Maschenweite: 100×100×100mm/100×100×50mm (kundenspezifische Zelldichte auf Anfrage)
- Scheinbare Dichte: 350-450
- Bohrungsdurchmesser:1,5-8mm
- Jodwert: 700-1200 mg/g
- Oberfläche: 700-1200 m²/g
- Scheinbare Dichte: 320-550 kg/m³
- Jodwert: 700-1200 mg/g
- Oberfläche: 700-1200 m²/g
- Scheinbare Dichte: 320-550 kg/m³
- Jodwert: 700-1200 mg/g
- Oberfläche: 700-1200 m²/g
- Scheinbare Dichte: 300-650 kg/m³
- Jodwert: 700-1200 mg/g
- Oberfläche: 700-1200 m²/g
- Scheinbare Dichte: 320-550 kg/m³
- Aktivierungsverfahren: Dampf-/Gasaktivierung bei hohen Temperaturen
- Porenstruktur: Mikroporös-dominiert, gleichmäßige Porenverteilung
- Umweltfreundliches Profil: Chemikalienfrei, niedriger Aschegehalt
- Primäre Anwendungen: Gasphasenadsorption, Trinkwasseraufbereitung
- Aktivierungsverfahren: Chemische Aktivierung (z. B. H₃PO₄/ZnCl₂) bei moderaten Temperaturen
- Porenstruktur: Mesoporös-reich, größere Oberfläche
- Prozess-Effizienz: Kürzere Aktivierungszeit, 30-50% höhere Ausbeute
- Nachbehandlung: Saures Waschen erforderlich, um Rückstände zu entfernen
- Funktionalisierung: Beladen mit Wirkstoffen (z. B. I₂/Ag/KOH)
- Gezielte Adsorption: Verbesserte Abscheidung bestimmter Schadstoffe (z. B. Hg⁰/H₂S/saure Gase)
- Individuelle Anpassung: Chemisch optimiert für Zielkontaminanten
- Hauptanwendungen: Industrielle Gasbehandlung, CBRN-Schutz
Warum unsere Aktivkohle verwenden?
Superior Adsorption Performance
Engineered pore structure targets diverse contaminants including micropollutants, heavy metals, and organic compounds for comprehensive water purification.
Enhanced Process Compatibility
Optimized particle size distribution ensures seamless integration with biological systems, membrane technologies, and tertiary treatment processes.
Sustainable Material Lifecycle
Bio-based sourcing and regenerable design minimize waste generation while maintaining consistent adsorption capacity across usage cycles.
Technical Support Ecosystem
Dedicated application specialists provide contaminant-specific solutions and operational guidance for complex wastewater matrices.
Verfahren und Technologie
1. Biological Treatment Enhancement (PACT Process)
Überblick über die Lösung
Powdered Activated Carbon (PAC) is directly dosed into aeration tanks of biological reactors (e.g., activated sludge systems), combining adsorption with microbial degradation to treat recalcitrant organic pollutants.
Die wichtigsten Vorteile
- Synergistic pollutant removal: Adsorbs toxic/inhibitory compounds (e.g., phenols, dyes), protecting microbes and enabling biodegradation of persistent organics.
- Improved sludge properties: Enhances floc formation, reduces sludge volume index (SVI), and mitigates foaming issues.
- Broad contaminant coverage: Simultaneously removes COD, color, odor, and heavy metals via adsorption and co-precipitation.
- Operational flexibility: Tolerates fluctuations in organic/inorganic loads without compromising effluent quality.
2. Advanced Treatment with Membrane Hybrid Systems
Überblick über die Lösung
PAC is integrated into submerged ultrafiltration/membrane bioreactors (MBRs), where it adsorbs dissolved pollutants and reduces membrane fouling, enabling high-efficiency tertiary treatment.
Die wichtigsten Vorteile
- Membrane fouling mitigation: Adsorbs foulants (i.e., soluble microbial byproducts), prolonging membrane stability and cleaning frequency.
- Higher removal efficiency: Handles dissolved organics, antibiotics, and micropollutants not treated through biological or physical processes alone.
- Stable operation at high concentration: High PAC concentrations can be maintained in reactors to stabilize adsorption equilibrium while the influent load draws down.
- Salt-tollerance: Successfully treats saline wastewater (e.g., aquaculture) by maintaining stable microbial structure and activities, as well as established sludge properties.
3. Granular Activated Carbon (GAC) Filtration for Reuse
Überblick über die Lösung
GAC filters treat secondary effluent as a polishing step, removing trace organics, micropollutants, and pathogens to produce reusable water.
Die wichtigsten Vorteile
- Broad-spectrum purification: Eliminates organic micropollutants (e.g., pesticides), heavy metals, antibiotic resistance genes, and pathogens.
- Bio-enhanced functionality: Develops bioactive biofilms for simultaneous adsorption and biodegradation, prolonging carbon life.
- Low-energy operation: Optimized backwashing sequences minimize hydraulic resistance and water waste.
- Disinfection support: Reduces turbidity and organic precursors, improving downstream disinfection efficacy.
4. Specialized Industrial Wastewater Treatment
Überblick über die Lösung
Activated carbon (powdered/granular) is used in adsorption columns or as a carrier for microbial immobilization to treat industry-specific pollutants (e.g., heavy metals, cyanide, fluorides).
Die wichtigsten Vorteile
- Heavy metal sequestration: Adsorbs and immobilizes metals (e.g., Cd, Cu, Ni) via chemisorption and surface complexation.
- Microbial carrier function: Supports specialized microbial consortia for targeted biodegradation (e.g., aluminum-laden mining wastewater).
- Chemical stability: Resists acidic/alkaline conditions in industrial effluents.
- Sludge dewaterability improvement: Loose carbon-bound sludge structure facilitates faster dewatering and reduces chemical dosing.
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