FCI WATERMAKERS, INC. 5FCI WATERMAKERS, INC. General
BOUNDARY LAYER / CONCENTRATION POLARIZATION
When water permeates through the membrane, nearly all the salt is le
behind in the brine channel. In any dynamic hydraulic system, the uid
adjacent to the wall of the vessel is moving relatively slow. Even though
the main body of the stream is turbulent, a thin lm adjacent to the wall
(membrane) is laminar. is thin lm is called the boundary layer.
If the feed water ow is insucient, the salts are saturated at the boundary layer
and can readily adhere to and pack into the R.O. membrane element surface.
For this reason, it is important to maintain sucient feed water ow through
the R.O. membrane element and prevent concentration polarization.
BRINE VELOCITY
e brine velocity, or ow, over the membrane surface is very important
to both product water quality and quantity. At low ows, concentration
polarization occurs, causing the water quality to decline.
In addition to inferior product water quality, low brine ows can
increase the precipitation of sparingly soluble salts. e salts will foul
the R.O. membrane element surface (concentration polarization). If
this occurs, the product water ux (production) will decline.
e feed pump integrated design provides a relatively smooth and continual
ow of feed water across and through the R.O. membrane element.
COMPACTION
Some densication of the membrane structure may take place while operating
at elevated pressures, above 1000 PSI. e change is known as compaction
and is accompanied by a reduction in the water permeation rate.
When the R.O. membrane element is subjected to elevated pressures
beyond 1000 PSI, the product water channel becomes squeezed,
resulting in restriction and product water recovery reduction.
OSMOTIC PRESSURE
e transfer of the water from one side of the membrane to the other will
continue until the head (pressure) is great enough to prevent any net transfer
of the solvent (water) to the more concentrated (feed water) solution.
At equilibrium, the quantity of water passing in either direction is equal,
and the head pressure is then dened as the "osmotic pressure" of the
solution having that particular concentration of dissolved solids.
Following terms are helpful in becoming familiar with
a FCI Watermakers Reverse Osmosis System.
GLOSSARY OF TERMS
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