Technical Introduction
Technical Introduction
The high-efficiency coalescing pressure oil remover is a new type of product developed by our company through comprehensive application of Stokes principle and coarse granulation technology, based on absorbing advanced foreign technologies and concepts with optimized improvements. It is a patented product of our company.
This coalescing pressure oil remover adopts a bidirectional flow design and uses CFD (Computational Fluid Dynamics) to optimize the internal flow field, achieving rational layout of the flow field inside the oil remover, thereby improving separation efficiency and significantly reducing vessel size. Through the use of high-efficiency coalescing internal components, oil droplet particle size is increased, greatly shortening the oil droplet retention time, achieving efficient oil-water separation while making the vessel smaller and the structure more compact. Through fully automatic control and sealed pressure oil removal, the unit operates smoothly, safely and reliably with convenient operation, and can adapt to various complex operating conditions.
Product Parameters
Product Parameters
| Parameter | Technical Specification |
|---|---|
| Footprint | Only 50% of conventional |
| Retention Time | Only 30% of conventional separators |
| Oil Removal Efficiency | >90% |
| Internal Component Material | Stainless steel, reinforced PP |
| Operation Mode | Fully sealed automatic operation |
| Flow Field Design | Bidirectional flow + CFD optimization |
| Inlet Device | Cyclonic centrifugal separation + rapid energy dissipation |
| Control Method | Automatic interface and liquid level control |
Technological Advantages
Technological Advantages
Technical Comparison
Technical Comparison
| Comparison Item | Conventional Pressure Oil Remover | High-Efficiency Coalescing Pressure Oil Remover |
|---|---|---|
| Design Principle | Gravity separation | Stokes principle + coarse granulation technology |
| Flow Field Design | Unoptimized, short-circuit flows exist | CFD full flow field optimization, stable laminar flow |
| Footprint | Large | Only 50% of conventional |
| Retention Time | Long | Only 30% of conventional |
| Oil Removal Efficiency | 60%~80% | >90% |
| Inlet Device | Conventional inlet | Cyclonic centrifugal separation + rapid energy dissipation |
| Coalescing Removal Particle Size | Relatively large | Small particle size, efficient removal |
| Anti-silting Capability | Sand easily accumulates, prone to clogging | Cyclonic sand removal + special sand flushing system, not prone to clogging |
| Control Method | Manual or semi-automatic | Automatic precision control of interface and liquid level |
| Operational Reliability | Average | Fully sealed automatic operation, adapting to various complex operating conditions |
Application Cases
Application Cases
High-Efficiency Coalescing Internals
Using high-efficiency coalescing internals to increase oil droplet particle size, greatly shortening oil droplet retention time, achieving efficient oil-water separation with a more compact structure.
Coalescing Pressure Oil Remover Application Project
High-efficiency coalescing pressure oil remover applied in petroleum and refining oily wastewater treatment, fully sealed automatic operation, safe and reliable, effluent quality exceeds discharge standards.
