Product Details:
| Minimum Order Quantity | 1 Piece |
| Capacity | 75 KLD |
| Installation Type | Containerized Plug & Play |
| Material Of Construction | Mild Steel |
Industrial wastewater treatment involves the process of removing contaminants, both chemical and biological, from wastewater generated by industrial processes before it can be safely discharged into the environment or reused. Here’s a detailed description of the process:Collection and Preliminary Treatment:Wastewater from industrial processes is collected and transferred to treatment facilities through a network of pipes or channels.Upon arrival at the treatment plant, large debris such as sticks, rags, and other solids are removed through screening processes to prevent damage to downstream equipment.Primary Treatment:The wastewater undergoes primary treatment, which involves physical processes such as sedimentation and flotation.During sedimentation, heavier solids settle to the bottom of large tanks called clarifiers, forming sludge, while lighter materials float to the surface and are skimmed off.This step primarily removes suspended solids and some organic matter.Secondary Treatment:After primary treatment, the wastewater undergoes secondary treatment to further remove dissolved and suspended biological matter.Biological processes such as activated sludge treatment or trickling filters are commonly used.In activated sludge treatment, wastewater is aerated and mixed with microorganisms (activated sludge) in large tanks. These microorganisms break down organic pollutants into carbon dioxide, water, and biomass.Trickling filters involve passing wastewater through a bed of porous material (such as rocks or plastic media) where microorganisms attached to the media degrade organic matter.Tertiary Treatment:Tertiary treatment may be employed to further improve the quality of the effluent if required by environmental regulations or for reuse purposes.Processes like filtration (e.g., sand or membrane filtration), chemical treatment (e.g., coagulation, flocculation), and advanced oxidation (e.g., ozonation, UV irradiation) are used.These processes target specific contaminants such as nutrients (nitrogen, phosphorus), heavy metals, and refractory organic compounds.Disinfection:Disinfection is often the final step before discharge to kill any remaining pathogens and ensure the water is safe for the environment.Chlorination, UV irradiation, or ozonation are common disinfection methods used depending on the required effluent standards and environmental considerations.Sludge Treatment and Disposal:Throughout the treatment process, sludge containing both organic matter and residual contaminants accumulates.Sludge is treated separately through processes such as thickening, digestion (anaerobic or aerobic), and dewatering to reduce volume and stabilize it.Depending on the characteristics of the sludge, it may be incinerated, landfilled, or used beneficially (e.g., as fertilizer or soil conditioner).Monitoring and Compliance:Throughout the entire wastewater treatment process, effluent quality is continuously monitored to ensure compliance with regulatory standards.Monitoring includes testing for various parameters such as pH, biochemical oxygen demand (BOD), chemical oxygen demand (COD), dissolved oxygen, and specific contaminants based on industrial processes.Industrial wastewater treatment aims not only to protect the environment but also to enable the safe reuse of water resources. It requires a combination of physical, chemical, and biological processes tailored to the specific contaminants present in the wastewater and the desired effluent quality standards
Additional Information:
- Item Code: WTP75
- Production Capacity: 100KLD
- Delivery Time: 2 TO 4 WEEK
- Packaging Details: NOT AVAILABLE
