Water treatment plants rely on coagulation, flocculation, and disinfection processes and are considered the most cost-effective method for treating large quantities of water. However, they require significant infrastructure investments, which are difficult to secure in rural regions of developing countries and are typically funded by governments. As a result, centralized treatment facilities are primarily available in metropolitan areas, benefiting mainly urban populations. Additionally, the transportation cost of water to the treatment plant and from the plant to individual households is a major expense, limiting its benefits for regions located far from the facility. Consequently, centralized treatment plants are usually built near freshwater sources such as rivers or lakes, primarily benefiting people living in close proximity to these water bodies.
| Type | Plant |
| Raw Water Quality | PH, Turbidity, TDS, Hardness, Suspended Solids |
| Finish | Polished |
| Water Source | Surface Water, Ground Water |
| Treatment Capacity | 10 MLD |
| Power Source | Electric |
| Process Type | Conventional, Membrane Filtration |
| Water Storage Capacity | Up To 50000 Liters |
| Disinfection Method | Chlorination |
| Automation Level | Fully Automated |
| Filtration Type | Rapid Sand, Dual Media Filters |
| Turbidity Removal | Min 90% |
| PH Adjustment | Sodium Hydroxide, Or CO2 For PH Control |
| Pump Type | Vertical Turbine |
| Usage | Agricultural Irrigation, Power Plants, Industrial Water Supply |
| Supply By | V9D Industries Pvt. Ltd. |
| Country Of Origin | India |
