Reverse Osmosis Plants

Manufactures a full line of seawater desalination systems designed for heavy or continuous duty service in the different applications where quality and dependable performance are keys.
our standard brackish water reverse osmosis systems are available with capacities ranging from 250 gpd to 5000 gpd, and our standard seawater reverse osmosis systems or water makers or ro desalination systems are available with capacities ranging from 380 gpd to 180,000 gpd.
pure aqua is also capable of manufacturing custom built reverse osmosis plants.
reverse osmosis separation (also known as hyper filtration) technology is used to remove dissolved impurities from water through the use of a semi-permeable membrane. Ro technology involves the reversal of flow through a membrane from a high salinity, or concentrated solution to the high purity, or "permeate", stream on the opposite side of the membrane. Pressure is used as the driving force for the separation.
reverse osmosis (ro), is used by our commercial & industrial brackish water & seawater reverse osmosis systems to purify water by removing salts and other impurities. It is also capable of rejecting bacteria, sugars, proteins, particles, dyes, and other constituents that have a molecular weight of greater than 150-250 daltons.
reverse osmosis-manufactured plants are used to produce high-quality demineralised water, especially where the client looks to minimise the use of chemicals which are the regenerants associated with the more conventional demineralised ion exchange process.
why reverse osmosis :
reverse osmosis has emerged as a serious alternative to chemical treatment systems due to a number of reasons. The minimal use of chemicals makes it environmentally desirable. Reverse osmosis is a simple process and the operational and maintenance costs are lower. It has higher production capacity to space ratio via-a-via other technologies. Ion exchange processes, on other hand, incur high resin replacement costs, substantially higher regeneration costs and inordinate downtime costs due the need for replacing ion exchange columns. While the biggest operating costs for ion exchange systems are regeneration chemicals, the major cost component in ro is energy i.e. Electrical power to operate the ro feed pump.
we design the plant according to the need for tap water, brackish water & sea water application. Our production range starts from 100 lph (liter per hour) to 100 m3 per hour for 400 tds to 45,000 tds.