Datasheet summary
8040-X201-TSAN
Engineering summary from PDF text extraction for 8040-X201-TSAN. Verify every value with the OEM datasheet.
Summary
Product identification
This document describes the 8" X-20 Low Fouling RO Element Series, specifically the Model 8040-X201-TSAN.
- Membrane Type: X20 Fully Aromatic Polyamide-Urea Advanced Composite Membrane
- Configuration: Spiral Wound, Fiberglass Outer Wrap with FoulGuard Technology
- Core Tube: TriSep Style Core Tube
Mechanical / hydraulic
- Element Weight: 45 lbs (20 kg)
- Length (A): 40.0 inches (1,016 mm)
- Diameter (B): 7.9 inches (200 mm)
- Permeate Tube (C): 1.50 inches (38.1 mm)
- Active Membrane Area: 365 ft² (33.5 m²)
- Feed Spacer: 0.031" thick diamond spacer
Operating limits
- Recommended Applied Pressure: 100 - 300 psi (7 - 21 bar)
- Maximum Applied Pressure: 600 psi (41 bar)
- Recommended Operating Temperature: 35 - 113°F (2 - 45°C)
- Maximum Feed Flow: 80 GPM (18 m³/hr)
- Minimum Brine Flow/Permeate Flow Ratio: 5:1
- Maximum SDI (15 minutes): 5.0
- Maximum Turbidity: 2 NTU
- Feedwater pH Range: 2 - 11 continuous
- Chlorine Tolerance: <0.1 ppm
Product water
Performance is based on the following test conditions: 2,000.0 ppm NaCl, 225.0 psi, 25°C, 15% recovery, pH 8.0, 30 minutes operation.
- Permeate flow: 9,700 GPD (36.0 m³/day)*
- Average Salt Rejection: 98.50%
- Minimum Salt Rejection: 99.50%
*Permeate flow is clean water flux at standard conditions above. Not applicable for all feedwater conditions. Individual element's permeate flow may vary +/- 15%.
Disclaimer: This summary is based on the provided text extract. It may not include all figures, footnotes, or the latest revisions present in the complete OEM PDF datasheet. For contractual data, always refer to the specific OEM PDF revision used on your project.
Official datasheet (PDF)
Curated from selected public technical reference material for discovery and preliminary comparison. This summary is not a substitute for a current certified manufacturer datasheet. Verify revisions and design limits before use.