Urgent Demand Under Water Resource Crisis
Southeast Asia and the Middle East face severe water scarcity challenges. Countries like Indonesia and Vietnam suffer high non-revenue water loss rates, while arid climates in Saudi Arabia and the UAE necessitate higher wastewater reuse rates. Rapid industrial growth further complicates these issues: high-salinity wastewater (e.g., concentrate from zero-discharge systems), oily wastewater, and bio-refractory wastewater-difficult to treat via conventional processes-have become pain points for environmental compliance and cost control. In response, Taihe Environmental introduces an integrated reclaimed water system based on Ceramic Ultrafiltration Membrane, achieving 99% recovery rate and stable effluent with SDI≤3, delivering cost-effective solutions for industrial clients.

I. Process Flow: Four Steps to Water Quality Transformation
Taihe Environmental's core process chain- "Influent → Advanced Oxidation → Ceramic Ultrafiltration → Reverse Osmosis" -is designed for highly contaminated wastewater:
1. Advanced Oxidation Pretreatment:
- Targets high-COD (>1000 mg/L) and oily wastewater.
- Catalytic oxidation decomposes macromolecular organics and breaks oil-water emulsions, clearing obstacles for subsequent membrane treatment.
2. Deep Filtration via Ceramic Ultrafiltration Membrane:
- Utilizes Tubular Ceramic Membrane with precise 0.1 μm pore size, thoroughly removing suspended solids, colloids, and microorganisms.
- Acid/alkali and oil resistance avoids fouling issues common in organic membranes, ideal for grinding and oily wastewater.
3. Reverse Osmosis System for Polishing:
- Uses ultrafiltrate as feed; Reverse Osmosis System further desalinates to produce high-purity water.
- Here, the Ceramic Ultrafiltration Membrane System for Reclaimed Water acts as the pretreatment core, ensuring long-term RO membrane operation.

II. Equipment Models: Standardized Modules for Diverse Needs
Taihe Environmental provides a full range of ceramic membrane equipment covering 50–200 m³/h capacities:
|
Recovery Rate |
Recommended Model |
Capacity |
Effluent Quality |
|
99% |
THCM-50 |
50 m³/h |
SDI≤3, Turbidity≤0.1 NTU |
|
99% |
THCM-100 |
100 m³/h |
SDI≤3, Turbidity≤0.1 NTU |
|
99% |
THCM-200 |
200 m³/h |
SDI≤3, Turbidity≤0.1 NTU |
III. Applications: Solving Four Industrial Wastewater Challenges
1. Reclaimed Water Reuse:
- Municipal and light industrial wastewater treated by Ceramic Ultrafiltration Membrane System for Reclaimed Water can directly supply cooling towers or site irrigation, boosting reuse rates to >90%.
2. Zero-Discharge for High-Salinity Wastewater:
- For high-TDS (>50,000 mg/L) brine from zero-discharge systems, ceramic membranes withstand salt shock. Combined with Reverse Osmosis System for Boiler Feed Water, they enable salt concentration and freshwater recovery.
3. Oil-Water Emulsion Separation:
- Ceramic Membranes for Water Treatment leverage oleophobic properties to resolve emulsified oil separation, achieving effluent oil content <5 ppm (exceeding the 15 ppm international standard).
4. Bio-Refractory Wastewater Treatment:
- For high-COD, low-B/C wastewater (e.g., chemical/pharmaceutical industries), the Advanced Oxidation + Ceramic Membrane process replaces biological methods, shortening treatment chains and eliminating sludge production.
IV. Technical Advantages: Why Ceramic Membrane Technology?
1. Extreme Water Adaptability:
- Tolerates wastewater with COD>1000 mg/L and oil>200 mg/L, exceeding limits of traditional ultrafiltration.
- pH resistance range: 0–14, suitable for electroplating and acid-washing wastewater.
2. Optimized Operating Costs:
- Significantly extends chemical cleaning cycles, reducing reagent consumption by 60%.
- Energy consumption markedly lower than organic membrane systems.
3. Modular Rapid Deployment:
- Mobile Reverse Osmosis Water Treatment systems can be operational within 48 hours for emergency pollution incidents.
> The high reliability of Ceramic Ultrafiltration Membrane System for Reclaimed Water makes it the preferred technology for desalination plants in the Middle East and palm-oil wastewater projects in Indonesia.
Conclusion: Driving Sustainable Water Futures with Technical Expertise
Facing water scarcity and industrial upgrading demands in Southeast Asia and the Middle East, Taihe Environmental leverages its "All-Membrane Technology Chain" (membrane materials → modules → equipment → applications) to provide integrated solutions from Ceramic Ultrafiltration Membrane to Reverse Osmosis System. Its equipment has served multiple high-difficulty wastewater projects, validated by 99% recovery rates, zero secondary pollution, and unanimous client acclaim.
Act Now!
If you struggle with:
- Insufficient reclaimed water reuse rates
- High disposal costs for high-salinity wastewater
- Environmental compliance pressures
Contact Taihe Environmental for a customized solution! Our engineers will:
✅ Conduct water quality testing and process design.
✅ Match THCM-series standardized equipment.
✅ Deliver a full lifecycle cost analysis report.
Visit our official website's inquiry portal to unlock new pathways for industrial wastewater resource recovery!
