High Separation Efficiency: By leveraging the density difference between oil and water—and integrating fluid dynamics with hydrocyclone separation technology—the system utilizes a W-type corrugated plate coalescer. This design effectively reduces the vertical distance oil droplets must travel to surface and increases the probability of droplet coalescence, thereby ensuring stable and consistent separation performance in subsequent stages.
High Throughput and Clog Resistance: The coarse-graining coalescer element is capable of separating and coalescing fine oil droplets larger than 20μm. It demonstrates robust resistance to clogging by suspended solids and facilitates a high processing throughput.
Stable Removal Rate: The coarse-graining coalescer element works in synergy with the polymer coalescer element; they target oil droplets of different particle sizes—facilitating separation through wetting-induced coalescence and collision-induced aggregation, respectively—to ensure a stable and reliable overall oil removal rate.
Eco-friendly and Low Maintenance: The equipment features a fully enclosed design, eliminating the need for additional auxiliary equipment to treat Volatile Organic Compounds (VOCs). Operation requires zero chemical additives and generates only a minimal amount of recyclable waste oil and sludge, thereby significantly reducing hazardous waste disposal costs and overall operating expenses.
Intelligent Operation and Maintenance: The system offers 24/7 cloud-based intelligent services, utilizing a big data platform to conduct remote analysis and real-time optimization of equipment performance, while enabling global data sharing. It performs statistical analysis on both horizontal (cross-comparison of multiple units) and vertical (historical data of a single unit) equipment data, providing powerful support for equipment operation and maintenance, after-sales service, fault prediction, and troubleshooting.
