R1 – Series Reverse Osmosis Systems

R1 – Series Reverse Osmosis Systems are designed for overall superior performance, high recovery rates, minimal energy consumption and offer great savings with low maintenance and operation costs.

R1 – Series Reverse Osmosis Systems feature a new, innovative design. These systems feature only the highest quality components, including a programmable computer controller with many built–in standard features, a stainless steel booster pump for high performance and corrosion resistance, ultra-low energy membranes and fiberglass membrane housings for enhanced performance and durability.

R1 – Series Reverse Osmosis Systems have been engineered for capacities ranging from 1,800 – 21,600 gallons per day.

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  • S – 150 Computer Controller
    • LCD Backlit Display
    • Pre–Treatment Lockout
    • Tank Level Input
    • Low Pressure Monitoring and Alarm
    • TDS Monitoring
    • Feed Flush
    • Hour Meter
  • AXEON Permeate and Concentrate Flow Meters
  • AXEON Concentrate Recycle with Flow Meter
  • AXEON Pre–Filter 0 – 100 psi Panel Mounted Glycerin Filled Gauges
  • AXEON Pump Discharge and Concentrate 0 – 300 psi Panel Mounted Glycerin Filled Gauges
  • AXEON 5 – Micron Sediment Pre–Filter
  • AXEON HF5 – Series Ultra Low Energy Membrane Elements
  • AXEON FRP – Series Membrane Housings – 300 psi
  • AXEON by Pentek® 20” Big Grey Cartridge Housings
  • Goulds® Multi–Stage Stainless Steel Booster Pump
  • ASCO™ Composite Feed Solenoid Valve
  • Feed Low Pressure Switch
  • White Powder Coated Aluminum Frame
  • Dual Chemical Pump Outlets
  • S – 150 Expander Board
  • S – 150 Dual TDS Board and Sensor
  • Filmtec® LCLE Membrane Elements
  • AXEON SS – Series Membrane Housings
  • AXEON NF3 – Series Membrane Elements
  • AXEON NF4 – Series Membrane Elements
  • AXEON HR3 – Series Membrane Elements
  • Hanna® BL 981411 pH Controller
  • Permeate Flush
  • Permeate Divert
  • Permeate Sample Valves
  • Pump Pressure Relief Valve
  • Blending Valve
  • High Pressure Tank Switch
  • Wooden Crate
RO SYSTEM CAPACITY MEMBRANE ELEMENTS LINE INCHES (NPT, IN) SYSTEM DIMENSIONS
L X D X H (IN / CM)
APPROX. SHIPPING
WEIGHT (LB / KG)
MODEL GPD M3 /D STANDARD
RECOVERY
RATE
QTY SIZE (IN)
(DIA. X L)
INLET PRODUCT WASTE
R1 – 1140
1,800 6.80 29% 1 4.0 x 40 1 0.75 0.75 26 x 26 x 60 /
74 x 66 x 155
250 / 113
R1 – 2140
3,600 13.60 45% 2 4.0 x 40 1 0.75 0.75 26 x 26 x 60 /
74 x 66 x 155
290 / 132
R1 – 3140
5,400 20.40 56% 3 4.0 x 40 1 0.75 0.75 26 x 26 x 60 /
74 x 66 x 155
330 / 150
R1 – 4140
7,200 27.30 63% 4 4.0 x 40 1 1 1 32 x 26 x 60 /
79 x 66 x 155
370 / 168
R1 – 5140
9,000 34.00 68% 5 4.0 x 40 1 1 1 32 x 26 x 60 /
79 x 66 x 155
430 / 195
R1 – 6140
10,800 40.90 56% 6 4.0 x 40 1 1 1 32 x 26 x 60 /
79 x 66 x 155
470 / 213
R1 – 8140
14,400 54.50 63% 8 4.0 x 40 1 1 1 32 x 50 x 60 /
84 x 127 x 155
510 / 231
R1 – 10140
18,000 68.00 68% 10 4.0 x 40 1 1 1 32 x 50 x 60 /
84 x 127 x 155
550 / 249
R1 – 12140
21,600 81.70 71% 12 4.0 x 40 1 1 1 32 x 50 x 60 /
84 x 127 x 155
590 / 268
Maximum Feed Temperature (°F / °C)
85 / 29
Maximum Free Chlorine (ppm)
0
Minimum Feed Temperature (°F / °C)
40 / 4
Maximum TDS (ppm)
2,000
Maximum Ambient Temperature (°F / °C)
120 / 49
Maximum Hardness (gpg)
0
Minimum Ambient Temperature (°F / °C)
40 / 4
Maximum pH (Continuous
11
Maximum Feed Pressure (psi / bar)
85 / 6
Minimum pH (Continuous)
2
Minimum Feed Pressure (psi / bar)
45 / 3
Maximum pH (Cleaning 30 Minutes)
13
Maximum Pressure (psi / bar)
200 / 14
Minimum pH (Cleaning 30 Minutes)
1
Maximum Feed Silt Density Index (SDI)
< 3
Maximum Turbidity NTU
1

Test Parameters: 550 TDS Filtered (5 – Micron), Dechlorinated, Municipal Feedwater, 65 psi / 4.50 bar Feed Pressure, 80 psi / 5.5 bar Operating Pressure, 77°F / 25°C, Recovery as stated, 7.0 pH. Data taken after 60 minutes of operation.

* Does not include operating space requirements.

** Varies with motor manufacturer.

† Low temperatures and feedwater quality, such as high TDS levels will significantly affect the systems production capabilities and performance. Computer projections must be run for individual applications which do not meet or exceed minimum and maximum operating limits for such conditions.

†† System pressure is variable due to water conditions. Permeate flow will increase at a higher temperature and will decrease at a lower temperature.

††† Product flow and maximum recovery rates are based on feedwater conditions as stated above. Do not exceed recommended permeate flow. Design conditions are not identical to test conditions, please contact the manufacturer or your supplier for more information.