Purified Water Generation,Storage & Distribution System
RO + EDI Systems (Purified Water Generation)
The water generation stage involves a combination of Reverse Osmosis (RO) and Electrodeionization (EDI) technologies. RO removes the bulk of dissolved solids, organic impurities, and microorganisms, while EDI polishes the RO permeate to produce water with very low conductivity and TOC (Total Organic Carbon).
Technical Overview
- RO membranes remove 95-99% of dissolved salts and impurities.
- EDI modules continuously regenerate without chemical use.
- Typical conductivity: <1 µS/cm (post RO), <0.1 µS/cm (post EDI).
- TOC: <500 ppb as per pharmacopeial limits.
- Operating temperature: Ambient or hot water sanitizable (up to 85°C EDI modules).
Applications
- Pharmaceutical water generation
- Boiler feed water treatment
- Food & beverage processing
- Hospital and laboratory water supply
Skid-based modular systems are commonly used with automatic PLC-based controls, conductivity sensors, UV disinfection, and CIP systems for operational safety and efficiency.
RO + EDI Systems (Purified Water Generation)
The water generation stage involves a combination of Reverse Osmosis (RO) and Electrodeionization (EDI) technologies. RO removes the bulk of dissolved solids, organic impurities, and microorganisms, while EDI polishes the RO permeate to produce water with very low conductivity and TOC (Total Organic Carbon).
Technical Overview
- RO membranes remove 95-99% of dissolved salts and impurities.
- EDI modules continuously regenerate without chemical use.
- Typical conductivity: <1 µS/cm (post RO), <0.1 µS/cm (post EDI).
- TOC: <500 ppb as per pharmacopeial limits.
- Operating temperature: Ambient or hot water sanitizable (up to 85°C EDI modules).
Applications
- Pharmaceutical water generation
- Boiler feed water treatment
- Food & beverage processing
- Hospital and laboratory water supply
Skid-based modular systems are commonly used with automatic PLC-based controls, conductivity sensors, UV disinfection, and CIP systems for operational safety and efficiency.
RO + EDI Systems (Purified Water Generation)
The water generation stage involves a combination of Reverse Osmosis (RO) and Electrodeionization (EDI) technologies. RO removes the bulk of dissolved solids, organic impurities, and microorganisms, while EDI polishes the RO permeate to produce water with very low conductivity and TOC (Total Organic Carbon).
Technical Overview
- RO membranes remove 95-99% of dissolved salts and impurities.
- EDI modules continuously regenerate without chemical use.
- Typical conductivity: <1 µS/cm (post RO), <0.1 µS/cm (post EDI).
- TOC: <500 ppb as per pharmacopeial limits.
- Operating temperature: Ambient or hot water sanitizable (up to 85°C EDI modules).
Applications
- Pharmaceutical water generation
- Boiler feed water treatment
- Food & beverage processing
- Hospital and laboratory water supply
Skid-based modular systems are commonly used with automatic PLC-based controls, conductivity sensors, UV disinfection, and CIP systems for operational safety and efficiency.
Purified Water Storage & Distribution Systems
Once the water is purified, it is stored in SS316L electropolished sanitary-grade tanks and circulated through a closed-loop distribution system. This ensures that microbial growth is minimized and water quality is preserved until the point of use.
System Features
- Storage tanks with 0.2 µm hydrophobic vent filters and spray ball cleaning.
- Continuous recirculation loop using sanitary pumps.
- Loop sanitization: Hot water (~85°C).
- Real-time monitoring of conductivity, TOC, temperature, and flow.
- SCADA/PLC based monitoring and alarming.
Design and implementation follow ASME BPE and ISPE guidelines, ensuring compliance with cGMP and regulatory norms.
Purified Water Storage & Distribution Systems
Once the water is purified, it is stored in SS316L electropolished sanitary-grade tanks and circulated through a closed-loop distribution system. This ensures that microbial growth is minimized and water quality is preserved until the point of use.
System Features
- Storage tanks with 0.2 µm hydrophobic vent filters and spray ball cleaning.
- Continuous recirculation loop using sanitary pumps.
- Loop sanitization: Hot water (~85°C).
- Real-time monitoring of conductivity, TOC, temperature, and flow.
- SCADA/PLC based monitoring and alarming.
Design and implementation follow ASME BPE and ISPE guidelines, ensuring compliance with cGMP and regulatory norms.
Purified Water Storage & Distribution Systems
Once the water is purified, it is stored in SS316L electropolished sanitary-grade tanks and circulated through a closed-loop distribution system. This ensures that microbial growth is minimized and water quality is preserved until the point of use.
System Features
- Storage tanks with 0.2 µm hydrophobic vent filters and spray ball cleaning.
- Continuous recirculation loop using sanitary pumps.
- Loop sanitization: Hot water (~85°C).
- Real-time monitoring of conductivity, TOC, temperature, and flow.
- SCADA/PLC based monitoring and alarming.
Design and implementation follow ASME BPE and ISPE guidelines, ensuring compliance with cGMP and regulatory norms.