RO Membrane Housing Selection Guide | Pressure Vessel Sizing
ANLISI Engineering · April 2026 · Engineering Guide
How to Select an RO Membrane Housing: Pressure, Material, and Configuration
The RO membrane housing — also called a pressure vessel — is the structural component that holds your RO elements under operating pressure. A poor housing choice leads to membrane bypass, O-ring failures, or structural failure. Here’s how to get it right.
Understanding the Basics
A standard RO membrane element is 8 inches in diameter × 40 inches long (8040 format) or 4 inches × 40 inches (4040 format). The housing is a tube that holds multiple elements end-to-end in a pressure-sealed enclosure.
Water enters the feed end, passes through the membrane spiral-wound elements, and exits at two points:
- Permeate (product): collected via a permeate tube through the center of each element
- Concentrate (reject): exits the tail end of the housing
Step 1: Choose Your Element Format
| Format | Diameter | Typical Flow | Application |
|---|---|---|---|
| 2540 | 2.5" × 40" | 0.1–0.3 m³/h per element | Small systems, lab-scale |
| 4040 | 4" × 40" | 0.3–0.8 m³/h per element | Light commercial, < 5 m³/h systems |
| 8040 | 8" × 40" | 1.5–3.0 m³/h per element | Industrial standard (most common) |
| 8080 | 8" × 80" | 3.0–5.0 m³/h per element | High-flow industrial, reduces vessel count |
For most industrial applications over 5 m³/h, the 8040 format is the standard choice. It offers the widest membrane selection from all major manufacturers (Dow Filmtec, Toray, Hydranautics, etc.) and the lowest cost per m³ of permeate.
Step 2: Determine Elements Per Housing
Standard housings hold 1 to 7 elements (most common: 4-element and 6-element for 8040).
| Elements per Housing | Typical Recovery | Use Case |
|---|---|---|
| 1–2 elements | 30–50% | Low-pressure brackish, high-flow stages |
| 4 elements | 50–65% | Standard brackish water |
| 6 elements | 65–75% | Standard configuration (most common) |
| 7 elements | 70–80% | Maximizing recovery, low-pressure feed |
Why does element count affect recovery? More elements in series means the water spends more "contact length" with membranes, increasing recovery. However, too many elements increases concentrate-side osmotic pressure and reduces flow in the tail elements.
Standard recommendation: 6 elements per housing for brackish water RO (< 5,000 ppm TDS), 4 elements for seawater RO (> 15,000 ppm TDS).
Step 3: Select Operating Pressure Rating
Housings are rated for maximum operating pressure. Selecting under-rated housings is a safety hazard.
| Water Source | Typical Feed Pressure | Required Housing Rating |
|---|---|---|
| Municipal tap water (< 500 ppm TDS) | 8–12 bar | 10 bar (150 psi) minimum |
| Brackish well water (500–5,000 ppm) | 10–18 bar | 21 bar (300 psi) standard |
| High-TDS industrial water (5,000–15,000 ppm) | 18–35 bar | 41 bar (600 psi) |
| Seawater (> 35,000 ppm) | 55–70 bar | 83 bar (1,200 psi) |
Always specify housings with a 20–30% pressure margin above your operating point. A 10-bar system should use a 21-bar housing, not a 10-bar one.
Step 4: Choose Housing Material
FRP (Fiberglass Reinforced Plastic)
- Most common for standard industrial and commercial RO
- Excellent corrosion resistance to brackish and seawater
- Lighter than stainless steel, lower cost
- Available up to 83 bar (1,200 psi)
- Limitation: Cannot be opened under pressure; requires end-cap tool for element change
316L Stainless Steel
- Required for pharmaceutical (USP purified water) and food-grade applications
- Can be sanitized with hot water (80°C) or steam
- Electropolished interior prevents biofilm adhesion
- More expensive, heavier
- Best for: GMP environments, sanitary applications, where FDA compliance is required
Carbon Steel (Epoxy-lined)
- Used for very large vessels (> 10" diameter) in industrial settings
- Lower cost at large sizes
- Requires careful lining integrity inspection
Step 5: Select End Plug Configuration
The end plugs seal the housing and allow element loading. There are three main configurations:
| Type | Description | Best For |
|---|---|---|
| Side port | Permeate exits through side port on housing body | Multi-element arrays, permeate manifolding |
| End port | Permeate exits through end plug | Single-element, simple installations |
| Interconnector | Connects multiple housings in series | Arrays with inter-stage permeate collection |
For systems with more than 4 housings, side-port housings connected via a permeate header manifold are the industry standard — easier to service and allows individual housing isolation.
Step 6: Array Configuration
For larger systems, housings are arranged in arrays (banks) with a specific ratio between stages:
2-stage system (most common for 75–80% recovery):
Stage 1: 2 vessels × 6 elements = 12 elements
Stage 2: 1 vessel × 6 elements = 6 elements
Ratio: 2:1The 2:1 ratio maintains balanced flux across both stages as recovery increases.
For high-recovery systems (> 80%), a 3-stage array (4:2:1 ratio) is used, though this increases system complexity and fouling risk.
Common Installation Mistakes
1. Horizontal mounting without support — Housings > 1,200 mm long need mid-span support to prevent sag and O-ring distortion 2. Over-tightening end plugs — Follow torque specs (typically 14–20 Nm for 8040); over-tightening cracks FRP end caps 3. No flush valve on startup — Always flush with low-pressure permeate or tap water before applying full operating pressure to a new membrane 4. Wrong O-ring material — Standard is EPDM for most RO applications; use Viton for high-temperature or chemical exposure applications
Quick Reference: ANLISI Housing Models
| Model | Element Format | Elements | Pressure Rating | Material |
|---|---|---|---|---|
| RO-4040-6 | 4040 | 6 | 300 psi (21 bar) | FRP |
| RO-8040-4 | 8040 | 4 | 300 psi (21 bar) | FRP |
| RO-8040-6 | 8040 | 6 | 300 psi (21 bar) | FRP |
| RO-8040-6-600 | 8040 | 6 | 600 psi (41 bar) | FRP |
| RO-8040-6-SS | 8040 | 6 | 300 psi (21 bar) | 316L SS |
| RO-8080-4 | 8080 | 4 | 300 psi (21 bar) | FRP |
Custom pressure ratings, lengths, and sanitary finishes available on request.
Selection Checklist
- [ ] Element format determined (4040 or 8040)
- [ ] Elements per housing specified based on recovery target
- [ ] Operating pressure confirmed — housing rated ≥ 20% above operating pressure
- [ ] Material selected: FRP (standard) or 316L SS (pharma/food)
- [ ] End plug configuration chosen (side port for arrays)
- [ ] Array ratio calculated (2:1 for standard 75% recovery)
- [ ] Support brackets specified for horizontal installation
- [ ] O-ring material confirmed (EPDM standard, Viton for chemical exposure)
Have a system design you’d like reviewed? Send your water analysis and flow requirements — we’ll review your housing specification and confirm it before you commit to purchase.
Share your permeate flow target, system pressure, and water chemistry — we’ll size the membrane array, specify housing material, and configure element count per vessel.
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