A Reverse Osmosis (RO) Plant is an essential infrastructure designed for water purification, particularly in areas with high salinity or contamination levels. It utilizes the principle of reverse osmosis to remove dissolved salts, minerals, and other impurities from water, producing clean and potable water.
At Ishan Paryavaran Pvt. Ltd., we are committed to revolutionizing water treatment solutions, and our Reverse Osmosis (RO) Plant exemplifies our dedication to sustainable water purification. Crafted with cutting-edge technology and precision engineering, the Ishan RO Plant redefines water treatment, offering unmatched efficiency, reliability, and environmental stewardship.
Pre-Treatment: Raw water enters the RO plant and undergoes pre-treatment processes, which may include sedimentation, filtration, and disinfection to remove suspended solids, bacteria, and organic matter.
Reverse Osmosis: The pre-treated water is pressurized and forced through semi-permeable membranes, which selectively allow water molecules to pass while blocking dissolved salts, minerals, and contaminants. This process produces purified water known as permeate, while the rejected impurities are flushed away as concentrate or brine.
Post-Treatment: The permeate from the RO membranes may undergo post-treatment steps such as remineralization, pH adjustment, and disinfection to enhance its quality, taste, and safety for consumption.
Storage and Distribution: The purified water is stored in clean tanks before distribution through pipelines or other means to consumers, industries, or storage reservoirs for various uses such as drinking, cooking, or industrial processes.
Membrane Modules: These modules contain semi-permeable membranes that selectively allow water molecules to pass while rejecting dissolved salts, minerals, and contaminants. Membrane elements are the heart of the RO process, responsible for producing purified water.
Pressure Vessels: Pressure vessels house the membrane modules and maintain the required pressure for the reverse osmosis process. These vessels are designed to withstand high pressures and ensure efficient water filtration.
Pump Systems: Pump systems are essential for creating the necessary pressure to drive raw water through the RO membranes. High-pressure pumps deliver feed water to the membrane modules, enabling the separation of purified water from concentrated brine.
Monitoring and Control Systems: Advanced monitoring and control systems oversee various parameters such as pressure, flow rate, and water quality throughout the RO process. These systems ensure optimal performance, efficiency, and safety of the plant operation.
High-Quality Water Production: RO plants produce clean, pure water by effectively removing dissolved salts, minerals, and contaminants, ensuring water safety and quality for various applications including drinking, cooking, and industrial processes.
Salinity Management: RO technology is particularly effective in treating brackish water and seawater, making it suitable for regions facing water scarcity or high salinity levels. RO plants help mitigate salinity issues and provide access to freshwater resources.
Resource Efficiency: By recovering valuable water from saline sources, RO plants promote resource efficiency and water conservation, reducing reliance on freshwater sources and minimizing wastewater discharge.
Scalability and Flexibility: RO systems are scalable and adaptable to various water treatment needs, allowing for modular expansion or customization based on demand fluctuations or changing water quality requirements.
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Industrial, municipal, and commercial facilities - including food & beverage, textiles, automotive, pharma, real estate, and institutions.
RO/UF systems, STP/ETP, DAF/clarification, sand & carbon filters, softeners, sludge handling (screw press/belt filter press), and AMC/O&M services.
We test your raw water/effluent, review consumption & discharge targets, then design to flow (m³/day), peak factors, space, and compliance norms.
Yes - designs are engineered to the required parameters (BOD/COD, TSS, pH, oil & grease, nutrients as applicable) with documented test reports at handover.
Daily flow, peak flow, inlet water/effluent analysis, desired outlet quality, available footprint, utilities (power/air), and any reuse/disposal plan.
Skid RO/filters: 3–6 weeks. Medium STP/ETP: 8–14 weeks (design, fabrication, civil readiness, erection/commissioning). Timelines vary by scope.
Our story is one of unwavering dedication to safeguarding one of the world’s most precious resources.
Our Mission is to make Pollution Free Water
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