Complete DM Water Plant - Ultra Pure Water Production

Intro: Need high-purity demineralized water? Our complete DM water plants combine RO, EDI, and ion exchange technologies to remove 99%+ dissolved salts. Custom-engineered solutions for power, electronics, and chemical industries.

What is Demineralized Water?

Demineralized water undergoes advanced treatment to remove dissolved salts and minerals, measured by conductivity (μS/cm) or resistivity (MΩ·cm).

Key Measurements:

• Conductivity: Lower values indicate purer water (0.055 μS/cm)
• Resistivity: Higher values indicate purer water (18.2 MΩ·cm)
• Relationship: Reciprocal relationship between measurements

4 Advanced Demineralization Technologies

1. Reverse Osmosis (RO) Systems

• Technology: Pressure-driven membrane separation
• Efficiency: 98-99% salt rejection
• Benefits: Low energy, high efficiency, chemical-free operation
• Applications: Primary desalination stage

2. Ion Exchange (IX) Systems

• Technology: Chemical resin exchange process
• Efficiency: High purity output
• Considerations: Chemical regeneration required
• Status: Traditional method, being supplemented by RO

3. Electrodeionization (EDI) Systems

• Technology: Combined ion exchange and electrodialysis
• Efficiency: Continuous operation, no chemicals
• Benefits: Automatic regeneration, consistent quality
• Output: Up to 18.2 MΩ·cm resistivity

4. Mixed Bed Polishers

• Technology: Mixed cation/anion resins
• Function: Final polishing stage
• Performance: Achieves >18 MΩ·cm resistivity
• Applications: Ultra-pure water requirements

Complete System Configuration

Standard Process Flow:

1. Pretreatment: Multi-media filtration, carbon adsorption
2. Primary Demineralization: RO membrane separation
3. Secondary Polishing: EDI or mixed bed purification
4. Distribution: Storage and delivery system

Customization Options:

• RO + Mixed Bed configurations
• RO + EDI continuous systems
• Standalone ion exchange units
• Hybrid technology combinations

Technical Specifications

Industry Applications

Power Generation:

• High-pressure boiler feed water
• Turbine generator cooling
• Closed-loop system makeup

Electronics Manufacturing:

• Semiconductor production
• PCB manufacturing
• Display panel fabrication

Chemical Processing:

• Process water preparation
• Chemical dilution
• Equipment cleaning

Healthcare Facilities:

• Laboratory water supply
• Pharmaceutical production
• Medical equipment water

Technology Comparison

5 System Advantages

✔ Custom Engineering - Tailored solutions for specific water quality requirements

✔ Multiple Technologies - RO, EDI, IX, and mixed bed configurations available

✔ High Efficiency - 99%+ salt removal with optimized energy consumption

✔ Automated Operation - PLC control with remote monitoring capabilities

✔ Quality Compliance - Meets international standards for ultra-pure water

Selection Guide

Choosing the Right Technology:

• For High Flow Rates: RO + EDI continuous systems
• For Highest Purity: RO + Mixed bed polishing
• For Budget Constraints: Traditional ion exchange
• For Zero Chemicals: Full RO + EDI configuration

Design Considerations:

• Feed water quality analysis
• Required output purity
• Daily consumption volume
• Space limitations
• Operational budget