Mode Of Action
Odor Removal efficiently with Enzymes play a crucial role in how eOxidose revolutionizes the biodegradation process. Our advanced enzymatic formula is designed to break down contaminants efficiently, ensuring optimal water quality and environmental safety. Discover the step-by-step process that eOxidose uses to achieve improved waste management results across multiple sectors.
Odor Removal with Eco friendly Enzymes of eOxidose Transforming Organic Waste into Odorless, Safe Environments
Degradation
eOxidose Enzymes effectively breaks down organic solid waste, and works greatly for Odor Removal, and transforming these waste materials into harmless byproducts that safeguards environment.
Organic Conversion
These enzymes efficiently converts fats into glycerol & fatty acids, breaks down cellulose into starch and sugars, & transforms proteins into amino acids, simplifies complex starch molecules into glucose.
How To Dose:
- For effective Odor Removal, Mix 50 gram kg in 20 Litres in water, and sprinkled in smelled areas Pour into toilets / Sewage / Septic tanks.
- Spray in to bio degradable solid waste / wetted water stagnant area.
- Product level may differ based on Aeration Chamber volume
- Qty required per day depends on volume.
eOxidose not only enhances biodegradation but also fosters Odor Removal for a cleaner and healthier environment by efficiently managing waste, reducing pollutants, and promoting sustainability with the help of Enzymes.
Enzyme – eOxidose
Odor Removal Solution for Sewage and Effluent Treatment Plants
eOxidose utilizes bioremediation, an advanced waste management method leveraging bacteria to neutralize toxins effectively and tackle odor challenges.
What is Enzyme – Oxidose Or Bioculture?
Enzyme Oxidose consists of Effective Microorganisms (EM), a blend of naturally occurring beneficial microbes. These microorganisms enhance microbial activity in wastewater, improving efficiency and ensuring superior odor control.
How our Enzyme Oxidose is superior than others?
- Cost-Effective: Competitive pricing ensures value for money.
- High Bacterial Count: Over 1 billion CFU per ml with 76+ bacterial strains.
- Efficiency: Requires smaller quantities and delivers faster reactions.
Features:
Facultative Nature: Microorganisms adapt to both aerobic and anaerobic conditions.
Bacterial Count: Billion CFU/ml with over 56 strains.
Application Range: pH: 4 to 10; Temperature: 10°C to 55°C
Temperature: 10°C to 55°Conths
| Ingredient Name | CAS No |
| Fungal Lipase | 9001-62-1 |
| Cellulase | 9012-54-8 & 9004-53-9 |
| Nervanase | 9000-90-2 |
| Proteinase | 12211-28-8 & 130498-22-5 |
Microbial Genus
Contains diverse and effective microorganisms, including:
- Arthrobacter, B. thuringiensis, Flavobacterium
- Aspergillus sp., B. licheniformis, Penicillium sp.
- Streptomyces, B. stearothermophilus, Pseudomonas
- Trichoderma, B. polymyxa, Saccharomyces
Comparison to Regular Formulations
Unlike typical formulations that only include bacteria, eOxidose is enriched with enzymes for enhanced performance from the outset.
Regular formulation, typically, do not initially have enzymes but only bacteria which produce enzymes.
Phases of Bacterial Growth:
- Lag Phase: Adjustment period where bacteria adapt to their environment before beginning substrate degradation.
- Log Phase: Rapid bacterial growth with substrate absorption and degradation, cellular synthesis, and an increase in bacterial mass.
- Stationary Phase: Environmental carrying capacity is reached; bacterial growth and death rates are balanced, maintaining a stable bacterial mass.
- Death Phase: Substrate levels drop, waste accumulates, and the death rate surpasses the growth rate, leading to a decrease in bacterial mass.
Common Contaminants and Microbial Stress:
A) Abiotic Stress Factors
Key influences include:
- Chemical Parameters: pH levels, alkalinity and ionized ammonia (NH4+).
- Physical Parameters: Temperature, turbulence as well as hydraulic retention time (HRT).
- Biological Parameters: Dissolved oxygen levels as well as the of availability nutrient.
Operational Factors: Substrate type, rate of return activated sludge (RAS), and hazardous waste presence.
B) Biotic Stress Factors:
Stressors include interactions with nitrifying and denitrifying bacteria, floc-forming and filamentous organisms, mixed liquor volatile suspended solids (MLVSS) concentration, mean cell residence time (MCRT), and protozoa dominance and diversity.
How Enzymes Based eOxidose is financially beneficial?
- With the use of our eOxidose, you will be able to minimize operational costs by 20-50%.
- Our eOxidose costs less than additives, requires less storage space, is easier to dose, and has a longer shelf life.
- No additional additives are required after administering our eOxidose.
- There are various issues linked with the usage of additives.
The generally used additives are:
Phosphate Source from Jaggery which is a Carbon Source, The Source of Urea Nitrogen and Di ammonium Phosphate.
The Issues linked with generally used additives:
The Non-availability of Urea & DAP that are in soluble form by means of microbial level tends to be difficult for comprehensive microbes to break down Urea as well as DAP. Moreover, various additional urea formulations are overlayed with neem, that is by nature an antimicrobial. Industrial grade urea-DAP in general tends to be more expensive.
- Because of its hygroscopic nature, it requires certain storage conditions.
- High expense of transportation.
- Large storage space is needed.
| Comparison | E-Oxidose | Additives |
| Availableness | Come-at-able | Rare |
| Dosage | Less | High |
| Utilization | Easy to use | Difficult |
| Under Stress Conditions | Efficient | Fails |
| Cost of Transportation | Very Low | Higher |
| Spaced use for Storage | Very Less | More Space needed |
| Anti Microbial | No | Neam Coated Urea |
| Hygroscopic | No | Yes |
- No extra nutrients required.
- Lower Energy Consumption.
- Enhanced Performance.
- Bacteria Adaptability.