This study comprehensively evaluated polyvinylidene fluoride (PVDF) -based ultrafiltration membrane systems, specifically OWUF-8 modules, for seawater pretreatment applications to address the critical need for effective reverse osmosis (RO) membrane protection in desalination processes. The research investigated three OWUF-8 module configurations (51-80 m ² membrane area) under diverse seawater conditions over 365 days, employing systematic performance evaluation methodologies including flux measurements, fouling analysis, and economic assessments. The ultrafiltration system demonstrated exceptional water quality improvement, achieving turbidity reduction from inlet concentrations of 25-120 NTU to consistently below 0. 08 NTU (>99. 9% removal efficiency) and maintaining silt density index (SDI 15) values between 2. 3-3. 1, well below the RO requirement of 3. 0. Optimal operational parameters were established at <40 L/ (m ² ˙h) flux, 100 kPa trans-membrane pressure, and 36 backwash cycles per day. The air-water combined backwash strategy achieved 94% flux recovery compared to 82% for water-only cleaning, while chemical cleaning optimization using 300-500 ppm NaClO for maintenance cleaning extended operational cycles. Implementation of OWUF-8 pretreatment extended RO membrane cleaning intervals from 15 to 45 days, reduced fouling rates from 2. 5% to 0. 8% per month, and increased membrane life expectancy from 3 to 5 years. System reliability assessment revealed 96% availability and 92% performance efficiency, exceeding industry standards. Economic analysis demonstrated a payback period of 1. 1 years with cumulative savings of 550k over 10 years, despite 15. 6% higher initial capital investment. The research establishes OWUF-8 ultrafiltration as a technologically superior and economically viable pretreatment solution for seawater desalination, providing critical operational guidelines for full-scale implementation in addressing global water security challenges.
Feng et al. (Fri,) studied this question.