HYDRAMEM - High Performance Membranes comprises state-of-the-art low pressure, brackish water and sea water RO elements. HYDRAMEM membranes are offered in dry state and are vacuum packed to ensure longer shelf life when stored in ambient conditions... read more
Ion Exchange pioneered development, manufacturing and promotion of speciality RO antiscalants and cleaners in India. Today, we offer the widest range of antiscalants and cleaners which are available through countrywide channel partners and service franchisees... read more
HYDRAMEM - High Performance Membranes comprises state-of-the-art low pressure, brackish water and sea water RO elements. HYDRAMEM membranes are offered in dry state and are vacuum packed to ensure longer shelf life when stored in ambient conditions.
HYDRAMEM low pressure elements require very low feed pressure. This unique feature ensures that an RO system installed with these membranes requires far less energy and operational cost while treating low salinity water. HYDRAMEM low pressure membranes offer one of the highest salt rejection and at the same time achieve higher permeate flow.
HYDRAMEM low pressure RO membranes are available in a wide range for domestic and institutional applications.
HYDRAMEM brackish water elements give one of the best in class rejection and at the same time provide optimum permeate flow. Its applications include generation of drinking and high purity water as well as treatment of process and treated waste water.
HYDRAMEM brackish water RO membranes are available for domestic, institutional and industrial applications.
HYDRAMEM Seawater Element (SWE) membranes, produce high-quality water and reduce over cost to the customer. HYDRAMEM SWE is a high-performance membrane which ensures product reliability and consistent performance thus meeting stringent water quality requirements.
The benefits of HYDRAMEM SWE are as follows:
- High NaCl and boron rejection to help meet the industrial requirement and other drinking water standards
- The active surface area which enhances productivity and operating flux
- Extended membrane life expectancy
- HYDRAMEM SWE are more rigid and may be cleaned over a wider pH range (1-13)
HYDRAMEM Nano Filtration Elements (NFE) are designed with hard outer shell for industrial applications providing high stability for temperature and pH.
They offer higher rejection and are used for bivalent ion removal, brackish water softening, dye desalting, treating textile brine & chemical salt recoveries.
Hydramem Ultrafiltration Modules are hollow fiber membranes designed for treatment of wide variety of applications such as Brackish Water (Ground, River & Surface), Municipal Waste, Industrial Effluents & Sea Water for Potable as well as Process use
Hydramem UF modules are available in both configurations: Modified PES fibers (In to Out) and PVDF fibers (Out to In).
This State of the Art Membrane module comes with MWCO of 100,000 Daltons (100 KD) which utilizes optimum energy and gives consistent permeate quality of SDI < 3.
INDION Antiscalants & Cleaning Chemicals - Ion Exchange pioneered development, manufacturing and promotion of speciality RO antiscalants and cleaners in India. Today, we offer the widest range of antiscalants and cleaners which are available through countrywide channel partners and service franchisees.
INDION speciality antiscalants are manufactured using proprietary formulation. They are designed to inhibit scale formation and precipitation of crystallised mineral salts and silica.
Based on the above application we offer a wide range of INDION antiscalants.
To optimise the performance of RO membrane systems cleaning and servicing are required periodically. Using proprietary formulations we manufacture a wide range of cleaning chemicals to make the cleaning of membranes more effective and efficient.
It is very important to identify the nature of scales or foulants. Based on this analysis, we can offer a range of cleaning chemicals which are designed to remove most of the scales and foulants and restore the performance of the membrane system.