Bacteria Cultures for Wastewater Treatment Plants
🏭 Product Description
Wastewater treatment plants handle organic loads, oils, detergents, phenolic compounds, ammonia, and heavy metals. However, each facility has different wastewater chemistry and loading conditions, making standard biological loads insufficient.
Teget Kimya Bacteria Cultures are GMO-free, highly adaptive microbial blends designed to optimize biological processes in wastewater treatment. They rapidly degrade targeted pollutants, improve plant efficiency, optimize sludge production, and reduce operating costs.
🔬 Mode of Action
Enzymatic Activation: Produces enzymes such as lipase, protease, amylase, and cellulase to break down organic pollutants.
Biofilm Stabilization: Promotes healthy biofilm development in aeration tanks and on carrier surfaces.
Nitrification / Denitrification: Converts ammonia and nitrite to nitrate, then denitrifies to nitrogen gas.
FOG Degradation: Prevents oil buildup in grease traps and inlet lines.
📌 Advantages
Maintains biological performance even under high organic loads
Prevents hydrogen sulfide and volatile fatty acid odor formation
Tolerates pH, temperature, and load fluctuations
Reduces excess sludge production, lowering disposal costs
Decreases chemical usage by breaking down organics biologically
📦 Technical Specifications
Form: Powder or granule (microencapsulated)
Microorganism Types: Aerobic, facultative anaerobic, nitrifying, and denitrifying bacteria
Density: ≥ 1×10⁹ CFU/g
Storage: Cool, dry place away from sunlight
Shelf Life: 24 months
Packaging: 1 kg, 5 kg, 25 kg kraft bag or bucket
CAS No: Not applicable for bacterial blends; individual enzymes have CAS numbers.
🌍 Teget Kimya Difference
Accredited laboratory support for process analysis and bacterial selection
Industry-specific blends for textile, food, and chemical sectors
On-site dosing and performance optimization
Large stock and fast delivery
🔑 Keywords
wastewater bacteria culture, wastewater microorganisms, biological treatment bacteria, FOG degrading bacteria, nitrification denitrification bacteria, lagoon bacteria culture, odor control bacteria, biofilm bacteria, industrial wastewater microbes
