<Li> Some small scale desalination units use' beach wells'; they are usually drilled on the seashore in close vicinity to the ocean . These intake facilities are relatively simple to build and the seawater they collect is pretreated via slow filtration through the subsurface sand / seabed formations in the area of source water extraction . Raw seawater collected using beach wells is often of better quality in terms of solids, silt, oil and grease, natural organic contamination and aquatic microorganisms, compared to open seawater intakes . Sometimes, beach intakes may also yield source water of lower salinity . </Li> <P> The high pressure pump supplies the pressure needed to push water through the membrane, even as the membrane rejects the passage of salt through it . Typical pressures for brackish water range from 1.6 to 2.6 MPa (225 to 376 psi). In the case of seawater, they range from 5.5 to 8 MPa (800 to 1,180 psi). This requires a large amount of energy . Where energy recovery is used, part of the high pressure pump's work is done by the energy recovery device, reducing the system energy inputs . </P> <P> The membrane assembly consists of a pressure vessel with a membrane that allows feedwater to be pressed against it . The membrane must be strong enough to withstand whatever pressure is applied against it . Reverse osmosis membranes are made in a variety of configurations, with the two most common configurations being spiral - wound and hollow - fiber . </P> <P> Only a part of the saline feed water pumped into the membrane assembly passes through the membrane with the salt removed . The remaining "concentrate" flow passes along the saline side of the membrane to flush away the concentrated salt solution . The percentage of desalinated water produced versus the saline water feed flow is known as the "recovery ratio". This varies with the salinity of the feed water and the system design parameters: typically 20% for small seawater systems, 40%--50% for larger seawater systems, and 80%--85% for brackish water . The concentrate flow is at typically only 3 bar / 50 psi less than the feed pressure, and thus still carries much of the high pressure pump input energy . </P>

Which technique does the process of reverse osmosis