Enzymes
Diagram on the Action of Microbial Effects in Wastewater Treatment
Breakdown of Large Organic Matter: DMFC enzymes act on large organic matter (“prey”) that is difficult for regular microbes to digest. These enzymes help to break down complex organic compounds into smaller, manageable pieces.
Boosting Microbial Efficiency: With over 300 combined and preserved enzymes, the DMFC solution accelerates the decomposition process, making organic matter easier for microbes to consume and process.
No Microbes Needed for Decomposition: The DMFC enzymes can perform organic matter decomposition without relying solely on microbial action, making the initial treatment stages faster and more efficient.
Enhanced Wastewater Treatment: By breaking down organic matter efficiently, DMFC enzymes help wastewater treatment facilities increase overall processing capacity, leading to better treatment outcomes.
Facilitates Microbial Feeding: Once organic matter is decomposed into smaller parts, it’s easier for microbes to catch and consume, enhancing the overall microbial digestion and purification processes in wastewater systems.
Effect of Complex Enzymes in Pretreatment during Wastewater Treatment
Introducing DMFC’s advanced complex enzymes for wastewater treatment, which revolutionize oil and fat separation processes by providing the following benefits:
- Superior Oil and Odor Removal: Effectively separates oils and eliminates odors in the oil & fat separation tank, keeping your operations fresh and efficient.
- Rapid Oil Decomposition: Breaks down organic matter and oils (animal, vegetable, and mineral) in both the raw water and regulation tanks, ensuring faster and more complete decomposition.
- Reduced Wastewater Load: By enhancing decomposition, enzymes dramatically lower the wastewater load, improving overall treatment capacity.
- Machinery Protection: Prevents oil accumulation, safeguarding machinery from damage, reducing downtime, and extending equipment life.
- Cost-Effective Operation: Minimizes the use of expensive coagulants and cuts down maintenance costs, offering substantial savings over time.
- Enhanced Coagulation Efficiency: Increases coagulation performance, ensuring smoother treatment with reduced odor and enhanced pressurized injury efficiency.
- Environmental and Economic Advantage: By reducing the need for chemicals and machinery maintenance, DMFC enzymes not only cut costs but also contribute to a cleaner, more sustainable operation.
Upgrade your wastewater treatment system with DMFC’s enzyme solution and experience efficiency, protection, and savings!
Effect of Complex Enzymes in Biological Treatment Process (Aeration Tank)
Enhanced Microorganism Activity: The injection of complex enzymes stimulates the growth and activation of useful microorganisms that were previously undetectable.
Improved Water Quality: Significant improvements in water quality indicators like BOD, COD, and nitrogen compounds are achieved through enzyme usage.
SV Improvement: Enzyme addition leads to better sludge volume (SV) performance, which enhances the treatment process.
Reduction of MLSS: A noticeable reduction in mixed liquor suspended solids (MLSS) is achieved, optimizing system efficiency.
Deodorizing Effect: The system benefits from improved odor control, making the environment more manageable and reducing unwanted emissions.
Prevents Equipment Damage: Enzymes help prevent damage to control devices and equipment caused by the generation of hazardous gases, prolonging the system’s lifespan.
Cost Efficiency: In addition to improving water quality and system operations, the use of enzymes leads to cost savings through better performance and reduced maintenance.
This enzyme solution is ideal for wastewater treatment facilities looking to optimize their processes, improve environmental outcomes, and lower operational costs.
Effect of Complex Emzymes in the Final Treatment Process (Aeration Tank)
DMFC’s complex enzymes offer key benefits for wastewater treatment:
- Enhanced Sedimentation: The enzymes improve the visibility in the sedimentation tank, making it easier to monitor and manage water quality.
- Water Reusability: Treated water can be reused for purposes such as wash water, reducing the need for fresh water in operations.
- Sludge Reduction: By improving sludge volume (SV) and mixed liquor suspended solids (MLSS), these enzymes reduce surplus sludge by 30-50%, cutting down the volume of dehydrated cake and disposal costs.
- Optimized Coagulation: Improves coagulation efficiency, requiring less coagulant, which saves costs and resources.
- Preventing Bulking: The enzymes help prevent bulking and enable faster recovery in water treatment plants.
- Heavy Metal Precipitation: Promotes the precipitation of heavy metals, aiding in cleaner water output.
- Extended Filtration Efficiency: Extends the life of filter membranes and filter media like sand and activated carbon, ensuring longer-lasting performance.
These features lead to significant operational savings and better wastewater treatment outcomes.
Effect of Complex Enzymes in the Deshydration Process
- Improved Sedimentation Efficiency: The enzymes enhance the clarity of the sedimentation tank, making the process more efficient.
- Water Reusability: Treated water can be reused for washing and other purposes, reducing overall water consumption.
- SV and MLSS Improvement: The enzymes improve Settling Velocity (SV) and Mixed Liquor Suspended Solids (MLSS), which leads to a reduction of surplus sludge by 30-50%.
- Reduction in Coagulant Usage: Enhanced coagulation efficiency allows for significant reductions in chemical coagulants.
- Prevention of Bulking: By preventing sludge bulking and promoting faster recovery, the process becomes more reliable and cost-effective.
- Heavy Metal Precipitation: The enzymes promote heavy metal removal, ensuring a cleaner sludge product.
- Cost Efficiency: Less chemical usage, reduced sludge, and water reuse lead to major cost savings for wastewater treatment plants.
- Odor-Free High-Quality Sludge Compost: The treated sludge has no unpleasant odor, making it easier to handle and transport.
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