RO Plant Price And Quantity
- 1 Set
- 500000.00 - 900000.00 INR/Set
RO Plant Product Specifications
- Full Automatic
RO Plant Trade Information
- 1 Set Per Week
- 10-12 Days
We are well-established name in industry, engaged in manufacturing and supplying a wide gamut of RO Plant. Offered plant is an efficient water purifier to reduce hardness produced from magnesium, calcium and other impurities. This plant is extensively demanded for large and medium scale industries. Our highly skilled professionals manufacture this RO Plant in compliance with the international quality standards using high quality components and advanced technology keeping in mind set industry norms.
Low maintenance cost
Easy to operate
- Drinking water purification systems for residential, Schools, Village panchyats, Hospitals. Industries, Dialysis Machine feed water in hospitals
- A cost effective replacement for DM Plants. Boiler feed water purifications. Industrial process water purification
- High TDS treated effluent water purifications & Sea water purifications.
DAKSHA GREEN Offers well designed Reverse Osmosis plants of capacities ranging from 250LPH to 50,000LPH.
Reverse Osmosis works by applying a pressure that exceeds the osmotic pressure, the reverse effect occurs. Fluids are pressed back through the membrane, while dissolved solids stay behind.
To purify water by Reverse Osmosis membrane, the natural osmosis effect must be reversed. In order to force the water of the brine stream (high salt concentration) to flow towards the fresh stream (low salt concentration), the water must be pressurized at an operating pressure greater than the osmotic pressure. As a result, the brine side will get more concentrated.
Water flows from a column with a low dissolved solids content to a column with a high dissolved solids content
Osmotic pressure is the pressure that is used to stop the water from flowing through the membrane, in order to create balance
By pursuing pressure that exceeds the osmotic pressure, the water flow will be reversed; water flows from the column with a high dissolved solids content to the column with a low dissolved solids content.