Industrial Water Treatment Systems
Industrial Reverse Osmosis Water Systems:
AQVIRO Engineering design & manufacture a full range of commercial and industrial reverse osmosis systems for any application requiring dependable, high purity water purification. Standard RO systems include many optional features to assure meeting a broader range of application-specific requirements. Aqviro systems are backed by more than three decades of RO design experience. Aqviro is also capable of manufacturing customized Reverse Osmosis Plants.
With expertise of AQVIRO, you will receive economical solution that creates value for you while reducing your operating costs for Reverse Osmosis Systems.
MULTIMEDIA WATER FILTRATION SYSTEM BY AQVIRO ENGINEERING
Carbon filtering is a method of filtering that uses a piece of activated carbon to remove contaminants and impurities, utilizing chemical adsorption. Each piece of carbon is designed to provide a large section of surface area, in order to allow contaminants the most possible exposure to the filter media.
One pound (454g) of activated carbon contains a surface area of approximately 100 acres (1 km²/kg). This carbon is generally activated with a positive charge and is designed to attract negatively charged water contaminants. Carbon filtering is commonly used for water purification.Carbon filters are most effective at removing chlorine, sediment, and volatile organic
compounds (VOCs) from water. They are not effective at removing minerals, salts, and dissolved inorganic compounds.
De-IONIZATION SYSTEMS:
AQVIRO Engineering is a leading provider of de-ionization solutions.
Our water De-ionizers are rugged, pre engineered,
pre-assembled, standardized units that minimize
expensive installation and startup costs.We have
designed our Deionization systems to maximize the effi-
ciency and repeatability of the unit during the service and
regeneration modes. Electrodeionization, Continuous
Deionization, Two Column Deionizer, Mixed Bed Deionizer,
Industrial DI, Commercial DI.
The Process of Deionization or Ionexchange In the context
of water purification,ion-exchange is a rapid and reversible
process in which impurity ions present in the water are
replaced by ions released by an ion-exchange resin.
The impurity ions are taken up by the resin, which must
be periodically regenerated to restore it to the original
ionic form. (An ion is an atom or group of atoms with
an electric charge. Positively-charged ions are called
cations and are usually metals; negatively-charged ions
are called anions and are usually non-metals).
The following ions are widely found in raw waters.
WATER SOFTENER SYSTEMS:
They are engineered and thoroughly tested to provide years of reliable, trouble-free performance with minimal maintenance. A water softener system is used to soften water, by removing the minerals that cause the water to be hard. Water softening is an important process, because the hardness of water in different applications is reduced d uring this process. Hard water c an clog pipes, damage boilers, heat exchangers, and many other devices.
Water softening can prevent these negative effects. Hard water causes a higher risk of lime scale deposits in industrial, commercial and household water systems. Due to this lime scale build-up, pipes are blocked and the efficiency of hot boilers and tanks is reduced.
INDUSTRIAL WASTE WATER RECYCLING:
Waste water is water that has become contaminated through use. It includes household sewage, municipal waste water, industrial effluent, collected rainwater
and surface runoff, i.e. water that flows off paved surfaces.Waste water treatment is generally carried out in three to four stages in centrally located sewage works. The cleaning stages typically include physical, biological and chemical processes. Ultra filtration technology rainwater and surface water without requiring any additional chemical treatment. Ultra filtration not only enables the removal of specific products from complex material streams, it also makes it possible to separate other useful by-products and “pure” water. Reuse concepts can then be applied to recycle these materials within the production process.Textile industries need huge quantity of water for their processes, which they normally pump out repeatedly from the ground or natural water sources resulting in depletion of ground water level. In the process textile industries generate huge quantity of toxic effluent containing colours, sodium sulphate, sodium chloride, sodium hydroxide and traces of other salts. These are generated after dyeing and after washing of garments / fabrics.