At Biozone Manufacturing, we understand the significance of treating waste and sewage water. The conventional approach of using excessive amounts of chemicals, such as chlorine, for sterilisation eradicates all bacteria, including the useful ones. However, this results in the release of harmful pollutants that can pose a threat to the environment and ecology. At Biozone Manufacturing, we understand the significance of waste and sewage water treatment. The conventional approach that employs large amounts of chemicals such as chlorine to sterilize everything, including useful bacteria, has its drawbacks. This method leaves behind hazardous pollutants that can have negative impacts on the environment and ecology.
Surprisingly, vibrant bacteria growth in the human gut is crucial for healthy development. Similarly, our kitchens naturally host healthy bacteria growth on workspaces and utensils. Excessive cleaning, especially with bleach, eradicates all bacteria, creating an unhealthy environment where these beneficial microorganisms are essential for cleanliness.
Consuming a highly acidic diet throws the stomach off balance, leading to heartburn and stomach ulcers. Antacids like Gaviscon and Rennies neutralize stomach acidity and provide relief. However, excessive stomach acidity destroys healthy bacteria, which should be replenished promptly for a healthy life. Probiotics are often recommended by homoeopaths and health practitioners to stimulate and maintain bacteria growth in the stomach.
Healthy bacteria play a crucial role in wastewater and sewage treatment. To promote their growth and sustainability, oxygen is added through activated sludge or submerged/floating media processes. Tanks containing raw sewage are infused with air bubbles containing atmospheric oxygen, which nourishes the bacteria. Furthermore, supercharged oxygen (ozone) and nanobubbles can improve the efficiency of waste and sewage water treatment.
Many industries are struggling with the increasing costs of wastewater treatment. It’s becoming unsustainable to pay surcharges of at least 125% to return their wastewater to the sewage system. This is especially true for dye plants, meat processing plants, and produce processors, who can no longer afford the outdated practice of paying to dispose of their wastewater.
To address these challenges, ozone gas is recognized as an efficient and environmentally friendly chemical for wastewater treatment. It surpasses other oxidants in power and effectiveness. Industries can generate ozone economically using ozone generators that produce supercharged oxygen. Correctly selected ozone diffusion systems transfer ozone from the gas phase to the liquid phase, providing various benefits in wastewater treatment.
Disinfection is a crucial aspect of wastewater treatment, involving the destruction or removal of microorganisms. Ozone is known for its high oxidation potential and specific lethality. It effectively lowers BOD (Biological Oxygen Demand), improves colour and odour, oxidizes organic matter, and precipitates heavy metals.
The level of treatment required depends on whether the treated water will be used for non-potable (industrial) or potable (drinking) purposes. Ozone’s ability to cleave organic macromolecule double bonds helps eliminate colour in wastewater. It also removes unpleasant odours through partial oxidation and destroys hydrogen sulfide, phenols, and trichlorophenols. Ozone easily oxidizes phenols from chemicals, plastics, synthetics, and petroleum into harmless CO2 and water.
Ozone is effective in oxidizing various inorganic substances such as sulphides, thiosulphates, ammonia, nitrites, and nitrate ions. It can also aid in the removal of heavy metals, cyanides, cyanates, and thiocyanates found in industries like mining, photo processing, and steel manufacturing.
Biozone Reclamation systems can integrate into wastewater treatment operations, enabling the reclamation of a significant portion of water usage. This reclaimed water can be reused within the factory or plant as process water or safely discharged into the sewage system.
Wastewater may contain harmful microorganisms that cause diseases. Bacteria such as Escherichia coli, Leptospira, Salmonella typhi, and Vibrio cholerae, as well as parasites like Balantidium coli, Cryptosporidium parvum, and Giardia lamblia, can be present in it. Furthermore, viruses such as enteroviruses, hepatitis A virus, and rotavirus may also be found. To effectively disinfect wastewater, processes like diffusion, oxidation, and coagulation are used.
When it comes to treating industrial wastewater, combining ozone with biofiltration proves to be a highly effective method of eliminating chemical oxygen demand (COD). While ultraviolet light (UV) is sometimes used as an alternative disinfection method, its effectiveness is limited due to issues with penetration and maintenance. That’s where ultrafiltration membranes, like Aquazone, come in – they can produce high-quality treated water that is safe for non-drinking applications. When it comes to treating industrial wastewater, combining ozone with biofiltration proves to be a highly effective method of eliminating chemical oxygen demand (COD). While ultraviolet light (UV) is sometimes used as an alternative disinfection method, its effectiveness is limited due to issues with penetration and maintenance. That’s where ultrafiltration membranes, like Aquazone, come in – they can produce high-quality treated water that is safe for non-drinking applications.. produce high-quality treated water that is safe for non-drinking applications.n produce high-quality treated water that is safe for non-drinking applications.
Wastewater can be discoloured due to the presence of organic macromolecule double bonds. However, ozone is an effective solution to this problem as it clears these bonds and restores the colour of the water. Additionally, ozone also eliminates unpleasant odours that often accompany wastewater through partial oxidation. By breaking down harmful substances like hydrogen sulphide, phenols, and tri chlorophenols, ozone purifies wastewater and makes it fit for consumption. This technology is also capable of oxidizing harmful contaminants like chemicals, plastics, and synthetic materials, ensuring that the water supply remains clean and safe.
To sum up, using nature’s technology for treating waste and sewage water is a sustainable and eco-friendly solution. By utilizing healthy bacteria and incorporating ozone-based processes, we can efficiently treat wastewater, safeguard the environment, and cut down costs for industries.
Ozone technology has come a long way in recent years and has proven to be a reliable and affordable solution for treating wastewater and other chemical needs, including drinking water treatment. At Biozone Manufacturing, our team of ozone experts is available to guide you through the entire process, ensuring that you maximize every drop of water and contribute to a more sustainable future.
Contact our water treatment experts to learn more.