D Flo – Drain Cleaning, Nalla Bioremediation Cleaning, Biofilm, Microbial Consortia, Polluted Water Channels

Biofilm formation is a paramount component for the bioremediation of open drains, flowing water systems like rivers, water channels, or man-made conduits etc. The formation of biofilms for these water bodies ascertains a mechanism for the attachment and activity of microbes which support the breakdown of organic material and industrial pollutants to clean up the water.

Team One Biotech’s D-Flo is a powerful consortium of strains of bacteria that enhance the process of formation of good biofilm in open drains. The bio solution has been designed to promote a stable and protected environment for the microorganisms. The microbes consume the organic pollutants as nutrients for sustenance and also release enzymes that degrade the pollutants and contaminants present in water to simpler less harmful substances.

Several factors influence the formation of biofilms in open drainage systems. Environmental stresses such as changes in temperature, pH, or nutrient availability immensely impact the build-up of a protective matrix (biofilm) that shields the microbes. T1B D-Flo operates tenaciously in these adverse conditions as well.

T1B D-Flo | Microbial Cultures For Open Drains, Storm Drainage System – Suppresses Foul Odours , impact of Bio Film in running wastewater

 Drain Cleaning – Nalla Bioremediation – Nalla Cleaning – Treatment Of Flowing Waste Water – Polluted Water Channels – Biofilm – Microbial Consortia – Microbial Inoculants – Microbial Enzymes – Biosurfactants – Aerobic Bacteria – Anaerobic Bacteria – Facultative Bacteria – Bio Enzyme – Enzymes – Bio Culture Bacteria Solutions – Bio Enhancer – Microbial Inoculant – Bioculture Product – Nallah Bioremediation

STP – Odour Control, Odour Reduction, Cheap BIoproducts, Powder Bioproduct, Liquid Bioproduct, Bio Culture For Sewage Treatment Plant

Several factors can undermine the effectiveness and efficiency of a sewage treatment plant. Factors such as composition (high levels of organic matter, nutrients or toxicity) of sewage wastes, higher temperatures that can reinforce microbial activity that breaks down organic sludge, hydraulic retention time, adequate oxygen supply to support microbial growth, and appropriate alkalinity of wastewater are among the most common ones.

It naturally becomes vital that any microbial formulation added to any STP can work through these variables. Team One Biotech’s “T1B STP” is a consortium of resilient & robust bacteria that facilitate the biodegradation of sewage wastes & organic pollutants by converting them into carbon dioxide, water and smaller biodegradable compounds.

T1B STP controls the formation of excessive organic sludge by rapidly degrading it. It also improves the settling rate of activated sludge for filtration and settling processes.

Longer retention time although allows for a more thorough treatment, it also increases the risk of odours and the growth of harmful organisms. T1B STP specializes in controlling filamentous bacterial growth in sewage management and also eliminates odours.

With its many beneficial properties like the high potency of reducing BOD, COD and ammonia, improving conditions for better floc formations, and controlling sludge bulking and excess foaming T1B STP applications are many. T1B STP microbial formulation can be used in any sewage treatment plant, sewer lines, STP pumping stations, municipal waste disposals and even for compact plants in housing complexes, hospitals etc.

T1B STP | Bacteria Consortia For Sewage Treatment Plant (STP) – For Sewage Odor Control, Organic Sludge Reduction, Sludge Bioremediation

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Wastewater & Environment – Aerobic, Anaerobic, Facultative,Enzyme Producing,Bio Culture Bacteria Solutions

Microbial culture is a useful tool for treating municipal waste and industrial waste that are contaminated or toxic. By using their metabolic processes, oxidation, nitrification and denitrification capabilities, these microbes can break down the organic matter and industrial effluents into simpler substances that they can use for their own growth and survival.

The T1B bacterial cultures bring with them a range of crucial benefits and advantages. Some of them can be summarised as follows:

  • Reduction of BOD or Biological Oxygen Demand in the wastewater system. A high BOD indicates that organic materials are not being removed properly.
  • Reduction of Total Suspended Solids (TSS) levels. TSS is a measure of the number of suspended solid contaminants in wastewater. A higher TSS level is counterproductive to the efficient working of a wastewater treatment plant.
  • Maintaining an optimum pH level of the wastewater treatment process.
  • Disintegration and degradation of ammonical nitrogen, nitrates and phosphates and other harmful compounds. The microbiome solutions work efficiently to prevent the eutrophication caused by algal bloom due to excess nutrients in water bodies.
  • Control of unpleasant odours and gases release from volatile organic compounds commonly called VOCs.
  • Enable and upgrade optimum conditions for flocculation conditions essential for sedimentation, creaming or filtration processes in wastewater.
  • Withstand shock loads and hydraulic loads and many more

The microbiome cultures can be applied to wastewater systems (WWTPs), municipal waste concentration, sewage treatment plants (STP) and effluent treatment plants (ETP), various types of bioreactors and biodigesters and for both aerobic and anaerobic conditions. Bioremediation plays a pivotal role in treating effluents and contaminants before the wastewater can be released into the oceans, rivers or lakes.

Since the conditions and processes vary in nature, the microbial consortium under the wastewater and environment vertical of TOB comprises various types of bacteria species. Separate products have been formulated with aerobic bacteria and anaerobic bacteria that can work optimally in aerobic conditions or anaerobic treatment steps as applicable.

The process to add microorganisms to the secondary treatment of wastewater is referred to as activated sludge treatment. This is after the primary treatment of wastewater treatment process. During the aerobic activated sludge treatment process, the wastewater treatment plant is subjected to an aeration process wherein air is pumped into the treatment tank to provide oxygen to microorganisms.

The microbiomes use the organic matter present in wastewater as a food source converting it into carbon dioxide, water and new microbial cells. The organic pollutants are thus decomposed and removed from wastewater. Nitrification and denitrification are biological processes that occur in wastewater treatment plants. Nitrification is the conversion of ammonia to nitrate by aerobic bacteria. Denitrification is the reduction of nitrate to nitrogen gas by anaerobic bacteria. These processes help remove nitrogen from wastewater and prevent eutrophication in receiving waters..

For Efficient Treatment Of Wastewater, Industrial Effluents, Sewage, fecal sludge, septic tanks, rivers, polluted lakes, ponds, solid waste composting, biomining, oil spills, FOG degradation, odour control, soil bioremediation – Microbe Based Bio-Solutions

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