Datasheet summary
Aquamite AQ 3-1-2-40
Engineering summary from PDF text extraction for Aquamite AQ 3-1-2-40. Verify every value with the OEM datasheet.
Summary
The Aquamite Electro Dialysis Reversal (EDR) product is a proven and reliable desalination technology suitable for various industrial and public infrastructure applications.
EDR Features
- Use of Carbon Electrodes for Aquamite models AQ10 and AQ15 results in no gas produced and no separate electrode stream required.
- High Water Recovery, up to 94%
- Salt Removal of 50 to 95%
- Polarity Reversal self-cleaning with electricity
- Free chlorine tolerance
- Tolerance to moderate suspended solids
- Adjustable product water performance without blending
- Ability to disassemble stacks for inspection
- Silica tolerance
EDR Benefits
- Efficient use of scarce water resources
- Low pretreatment requirements and costs
- Low chemical consumption costs
- Long membrane life, typically 10+ years
- Strong ability to recover from less than ideal feed water quality
Standard Design and Scope of Supply
- MkIV-2 EDR stacks with SUEZ Carbon Electrodes
- Cartridge filter and pressure regulating valve on the inlet of system
- Concentrate Recirculation pump
- Basic and Premium Models available for the Aquamite 5, Aquamite 10, and Aquamite 15.
- GE Fanuc Micro PLC & 6” color Quick Panel HMI
- Full Owners Operation & Maintenance Manual, Factory Acceptance Test results, and Stack Performance Test results
Instrumentation
- Flow: Product Outlet, Concentrate Outlet
- Pressure: Cartridge Filter Inlet & Outlet, Concentrate Recirculation, Pump, Outlet, Product Outlet
- Conductivity: Inlet & Product Outlet
Operating Limits
- Water Recovery: Up to 94%
- Salt Removal: 50 to 95%
- Silica Removal: none
- Temperature: 40 to 100ºF (4 to 38ºC)
Electrical
- Input Voltage: 480VAC/3/60Hz
- Typical Power consumption: 2 – 4 kWh/1,000 gallons of product water
Feed Water Guidelines
- Typical Feed TDS: 100 to 3,000 ppm (mg/l)
- Maximum Feed TDS: 6,000 ppm (mg/l)
- Silica (Reactive): unlimited
- pH: 2 to 10
- Turbidity: 5 NTU
- Free Chlorine (continuous): 0.5 ppm (mg/l)
- TOC: < 60 ppm (mg/l)
- COD: < 200 ppm (mg/l) as O2
- Iron: < 0.3 ppm (mg/l)
- Manganese, Aluminum: < 0.1 ppm (mg/l)
- H₂S: < 0.1 ppm (mg/l)
- Allowable Intermittent Levels:
- Turbidity: 10 NTU
- Free Chlorine: 30 mg/l
Material of Construction
- Welded Frame: Painted Carbon Steel
- Dilute and Concentrate Piping: Sch. 80 PVC
- Flanges: ANSI
- Concentrate Pump: Single-stage Centrifugal
- Rectifier: NEMA 3R
- Control Panel: NEMA 4
Quality Assurance
- Certification: UL
- Facility: ISO 9001:2000
Aquamite 3 & 5 Standard Systems
| Model | AQ 3-1-2-40 | AQ 3-1-50/35 | AQ 5-1-2-150 | AQ 5-1-2-200 |
|---|---|---|---|---|
| Flow Rates | ||||
| Product Flow Nominal | 7.0 gpm (26.5 lpm) | 7.0 gpm (26.5 lpm) | 36.5 gpm (138.1 lpm) | 36.5 gpm (138.1 lpm) |
| Product Flow Range | 6.0 to 11 gpm (22.7 to 41.6 lpm) | 7.0 to 8.0 gpm (26.5 to 30.3 lpm) | 21 to 41 gpm (79.5 to 155.2 lpm) | 27 to 54 gpm (102.2 to 204.4 lpm) |
| Electrode Outlet Flow | 0.8 gpm (3.0 lpm) | 1.1 gpm (4.2 lpm) | 1.1 gpm (4.2 lpm) | 0.7 gpm (2.7 lpm) |
| General Information | ||||
| Number of Stacks | 1 | 1 | 1 | 1 |
| Number of Hydraulic Stages | 2 | 4 | 2 | 2 |
| Number of Cell Pairs per Stage | 40 | 2 x 50 and 2 x 35 | 150 | 200 |
| Type of Stack | MkIV-2 | MkIV-2 | MkIV-2 | MkIV-2 |
| Dimensions | ||||
| System Dimensions (W x L) | 40” x 181” (1.0 x 4.6 m) | 40” x 181” (1.0 x 4.6 m) | 51” x 213” (1.3 x 5.4 m) | 51” x 213” (1.3 x 5.4 m) |
| Inlet Piping | ¾” (1.9 cm) | ¾” (1.9 cm) | 1 ½” (3.8 cm) | 1 ½” (3.8 cm) |
| Product Outlet Piping | ¾” (1.9 cm) | ¾” (1.9 cm) | 1 ½” (3.8 cm) | 1 ½” (3.8 cm) |
| Off-Spec Outlet Piping | ¾” (1.9 cm) | ¾” (1.9 cm) | 1 ½” (3.8 cm) | 1 ½” (3.8 cm) |
| Electrode Outlet Piping | 1” (2.5 cm) | 1” (2.5 cm) | 1” (2.5 cm) | 1” (2.5 cm) |
| Concentrate Outlet Piping | ½” (1.3 cm) | ½” (1.3 cm) | ½” (1.3 cm) | ½” (1.3 cm) |
| Electrical | ||||
| Max Rectifier Output Stage 1 | 165V @ 24A | 165V @ 24V | 240V @43A | 240V @ 43V |
| Max Rectifier Output Stage 2 | 165 @ 12A | 165V @ 12A | 240V @ 18A | 240V @ 18A |
| Connection Requirement | 9.4 KVA, 230 VAC, 1-Phase, 41A | 9.4 KVA, 230 VAC, 1-Phase, 41A | 34.5 KVA | 34.5 KVA |
Note: All piping sizes are provided for nominal flow rates at 85% recovery.
Aquamite 10 & 15 Standard Systems
| Model | AQ 10-2-2-150 | AQ 10-2-2-200 | AQ 15-1-2-600 | AQ 15-1-3-600 |
|---|---|---|---|---|
| Flow Rates | ||||
| Product Flow Nominal | 73 gpm (267 lpm) | 73 gpm (267 lpm) | 140 gpm (530 lpm) | 130 gpm (492 lpm) |
| Product Flow Range | 41 to 81 gpm (150 to 307 lpm) | 54 to 109 gpm (204 to 413 lpm) | 85 to 160 gpm (322 to 606 lpm) | 85 to 135 gpm (322 to 511 lpm) |
| Concentrate Outlet Flow | Depends on recovery and product | Depends on recovery and product | Depends on recovery and product | Depends on recovery and product |
| General Information | ||||
| Number of Stacks | 2 | 2 | 2 | 3 |
| Number of Hydraulic Stages | 2 | 2 | 2 | 3 |
| Number of Cell Pairs per Stage | 150 | 200 | 600 | 600 |
| Type of Stack | MkIV-2 | MkIV-2 | MkIV-2 | MkIV-2 |
| Dimensions | ||||
| System Dimensions (W x L) | 66” 240” (1.7 x 6.1 m) | 66” 240” (1.7 x 6.1 m) | 90” 196” (2.3 x 5.0 m) | 90” x 242” (2.3 x 6.2 m) |
| Inlet Piping | 3” (7.6 cm) | 3” (7.6 cm) | 3” (7.6 cm) | 3” (7.6 cm) |
| Product Outlet Piping | 3” (7.6 cm) | 3” (7.6 cm) | 3” (7.6 cm) | 3” (7.6 cm) |
| Off-Spec Outlet Piping | 3” (7.6 cm) | 3” (7.6 cm) | 3” (7.6 cm) | 3” (7.6 cm) |
| Electrode Outlet Piping | 1” (2.5 cm) | 1” (2.5 cm) | 1” (2.5 cm) | 1” (2.5 cm) |
| Concentrate Outlet Piping | 1” (2.5 cm) | 1” (2.5 cm) | 1” (2.5 cm) | 1” (2.5 cm) |
| Electrical | ||||
| Max Rectifier Output Stage 1 | 240V @ 39A | 240V @ 39A | 590V @ 46A | 590V @ 26A |
| Max Rectifier Output Stage 2 | 240V @ 18A | 240V @ 18A | 530V @ 18A | 520V @ 14A |
| Max Rectifier Output Stage 3 | 420V @ 7.5A | |||
| Connection Requirement | 60KVA | 60 KVA | 88.8 KVA | 76.4 KVA |
Note: All piping sizes are provided for nominal flow rates at 85% recovery.
Performance, number of stages and cell pairs, recovery and power consumption are dependent on inlet feed water quality and temperature. A Watsys projection must be completed by an authorized SUEZ design representative for proper system design & for any performance guarantee to be provided.
Disclaimer: This summary is based solely on the provided text extract. It may not include all figures, footnotes, or the most recent revisions found in the official OEM PDF datasheet. For contractual data, please 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.