Reverse Osmosis plants for low and medium salinity (brackish) Water

THE IDEAL WATER DESALINATION TREATMENT FOR INDUSTRIAL PROCESS WATER, IRRIGATION OR DRINKING WATER

HOW DOES REVERSE OSMOSIS WORK?

Reverse Osmosis (RO) is a pressure-driven membrane separation technique used to separate dissolved solids from solutions. Semipermeable membranes allow water and some dissolved solids  to pass through, retaining the majority of dissolved solids.

Rejection is defined as the degree to which dissolved solids are retained by the membrane. It is expressed in terms of percent of feed concentration and typical values for RO membranes are 98% or 99%. That means that 98% to 99% of dissolved solids are retained by the membrane.

The higher the concentration of dissolved solids, the greater the osmotic pressure of the solution and the driving pressure required to force the water flow inside the membrane in the reverse osmotic direction. As a consequence, typical working pressures for low salinity waters are 10-20 Bar, while typical working pressures for seawater RO are > 50 Bar. 

FEATURES AND BENEFITS OF ALSCORE RO UNITS

Alscore’s reverse osmosis plants for low salinity water (typically 200 mg/l < TDS < 3000 mg/l ) are designed to provide process water for industries such as Power Generation, Food and Beverage, Pharmaceutical, Microelectronics, Solar, Data Centers or Commercial facilities. They can also be used to provide drinking-quality water from ground, surface or bore water or as a reliable supply for irrigation when the available sources have a higher than acceptable salinity level (see our guideline for maximum salinity levels).

Our reverse osmosis plants are  typically designed for feeds with up to 3000 mg/l TDS  and recovery rates between 60% and 80% . Our goal is always to minimise feed pressure and membrane costs while maximising permeate quality and recovery.

These RO units are pre-designed and factory assembled and tested to minimise installation, commissioning  and start-up time. Using a feed water analysis as starting point the project design kicks-off based on specifications and use of the product water.  In general all our systems will contain flow, temperature, conductivity and pressure transmitters, as well as control valves operated from an HMI/PLC control. Dry contacts are provided for pretreatment units or storage tanks and MODBUS communication is available for integration with other BMS or industrial interfaces. 

In order to achieve high recovery rates for our brackish reverse osmosis plants, we use three-stage configurations for large systems or concentrate recirculation for smaller systems and pilot units. This way we can reach up to an 80% overall recovery rate while each membrane still works under its standard 10% recovery rate. Recirculation allows membranes in small units simulate concentration conditions applicable to the final element in an industrial installation with low scale hydraulics.

When ultra-pure water is required our two-pass reverse osmosis plants produce high quality water by pumping into a second reverse osmosis stage the produce water from a first stage.
When partial desalination with an acceptable level of water softening is the main goal, our reverse osmosis plants can be equipped with NF membranes characterised by a medium passage of monovalent salts and a very low passage of bivalents salts. As monovalent salts are the main contributor to osmotic pressure, these brackish reverse osmotic plants operate at a lower pressure, therefore with a lower energy need.
For irrigation purposes, typically only a medium desalination is required to align a bore or surface water quality with the crop salinity limit (typically less than 500µS/cm). For those cases our brackish reverse osmosis plants can integrate a bypass mode that mix a bypassing portion of the feed with the permeate.

Optional pre-treatments and post-treatments are available to remove metals (Fe, Mn, Al), turbidity, organic matter and bacteria or remineralising the product water. In general, reverse osmosis membranes are very sensitive to suspended solids so all our units are supplied with cartridge filters. However other pre-treatments might be required to extend the membranes life.

Reverse Osmosis unit with five membranes
SS piping into Reverse Osmosis Membrane
Water treatment PLC controller

Contact us for a free quote or any queries

Download BRO Series Technical Data

*(1) All data for information only and subject to change based on actual water analysis and final design parameters

Features & Options Standard Option
5 & 1 micron cartridge filters
Standard
High pressure pump
Standard
Low pressure pump
Optional
Stainless Steel 316 piping
Standard
Auto-flushing
Standard
Antiscalant dosing system
Standard
Chlorine Sterlization (pretreatment)
Optional
Iron, Aluminium, Manganese removal (pretreatment)
Optional
Turbidity removal (pretreatment)
Optional
Skid mounted
Standard
Containerised
Optional
VFD for high pressure pump
Optional

HOW MUCH DOES A REVERSE OSMOSIS PLANT COST?

When customers come to us looking for a Reverse Osmosis water treatment plant, one of the hardest questions to answer is, How Much Does a Reverse Osmosis Plant Cost?” The costs can be complex to estimate based on several factors like feed water chemistry or product water use but in general, and assuming that no pre-treatment is required other than a basic filtration, a 50m3/day will cost between $75,000 and $100,000. 

Other important costs that will need to be considered are civil works, installation works, freight to site, and local permits.

 

Media Filtration

Here to help...

We can help you design the system that better adapts to your needs and available water.  Contact us for any question or quotes.

Contact Info

  • sales@alscore.com.au
  • 1300-74-20-10
  • Level 5, 203-233 New South Head Rd, Edgecliff, NSW 2027