INDUSTRIAL WASTEWATER

ACF SA - Bacteria for sludge-away treatment

  HOTLINE - 0914 811 441

"Microbial Sludge Reduction / Microbial Sludge Treatment in Wastewater Treatment Systems"

ACF-SA is an advanced industrial sludge treatment microbial product, imported from the USA, containing humic compounds and groups of Heterotrophic, Photosynthetic, and Facultative Bacteria, primarily including strains of Bacillus spp. and Rhodopseudomonas spp.

Produced using the most modern and advanced manufacturing systems in the USA, ACF-SA is regarded as one of the best microbial treatments for sludge reduction and environmental wastewater treatment.

Using ACF-SA for sludge treatment in wastewater treatment systems of industrial plants, industrial zones, and domestic wastewater, it is entirely non-hazardous, non-toxic, and environmentally friendly. Unlike chemical sludge treatment products, it does not pose risks to users' health.

***** Effectiveness:

Treating sludge with ACF-SA bio-product provides the following benefits:

  • Large, settleable biological sludge.
  • Limits and controls odors emanating from decomposing sludge.
  • Accelerates the decomposition of complex organic compounds.
  • Increases the biological sludge's Hydraulic Retention Time (SRT), minimizing waste disposal.
  • Applicable for reducing sediment in ponds, lakes, and wastewater treatment systems.
  • Meets discharge standards.
  • Enhances the decomposition rate of bottom sludge.
  • Accelerates the breakdown of tough surface scum and hard-to-degrade organic matter.

The practical effectiveness video of imported microbial wastewater treatment

Remarkable effectiveness of microorganisms in reducing BOD, COD, TSS

 

 

  HOTLINE - 0914 811 441

Component declared:

 Bacteria

 Quantity

 Heterotrophic Bacteria

 6.5 x 10^7 CFU/ml

 Anaerobic Bacteria

 2 x 10^8 CFU/ml

 Phototrophic Bacteria

 2.5 x 10^6 MPN/ml

Humic compounds: 6.25 - 6.75%

  HOTLINE - 0914 811 441

Usage Instructions:

- Initial dosage: 20-40 mL/m³/week.

Maintenance dosage: use 5-10 mL/m³/week.

Depending on the characteristics of each system, the composition, and the properties of wastewater, the appropriate dosage should be determined.

*Usage Method:

- Inoculate ACF-SA microbial biomass. After 12-14 hours, evenly distribute into the biological tank.

Can be used in conjunction with ACF32 for optimal effectiveness.

 

Optimal Microbial Activity Conditions:

Temperature: 10 - 40°C.

pH: 4 – 9.

BOD_5/COD > 0.5.

BOD:N:P ratio = 100:5:1 (aerobic conditions).

(COD/Y):N:P:S ratio = (50/Y):5:1:1 (anaerobic conditions).

Salinity < 10 ‰.

 

Notes:

- 1 gallon = 3.785 liters. 1 drum = 6 gallon.

ppm = 1 ml/m³.

Stored in cool dry place, avoid direct sunlight.

- Products containing photosynthetic bacteria: avoid storage in barrels, keep in dark rooms.

 

  HOTLINE - 0914 811 441

APPLICATION of ACF-SA Microbial Sludge Reduction

- In aerobic tanks and sludge beds of various wastewater treatment systems, such as domestic and industrial wastewater (rubber processing, textile dyeing, food processing, cooking oil, breweries, beverages), urban areas, residential areas, high-rise buildings, commercial centers, restaurants, hotels, and seafood wastewater.

"We are very satisfied with the ACF-SA microbial product. It's highly effective, significantly reducing costs. The complete microbial development time with a sludge reduction rate of 25 - 30% is between 70 - 90 days. Additionally, the company provides enthusiastic customer support and consultation".

  HOTLINE - 0914 811 441

Wastewater treatment system efficiency after using ACF-SA sludge-reducing microorganisms

  • Sludge reduction: 28%
  • BOD & COD reduction
  • Effective removal of unpleasant odors
  • Maintains stable system performance during winter months
  • Decreases overall operational expenses
  • System designed for a PE 535k
  • Significant reduction in organic bottom sludge and enhanced overall system efficiency
  • 60% reduction in COD, 83% reduction in sludge processing volume
  • 80% reduction in sludge waste, 60% increase in throughput
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