GrowoniX - EX1000 Tall High Flow Reverse Osmosis System

GrowoniX EX1000 Tall High Flow Reverse Osmosis System

The GrowoniX EX1000 Tall High Flow Reverse Osmosis System is a powerful and efficient water filtration solution designed to deliver up to 1,000 gallons per day (GPD) of purified water. Built with tall pre-filter housings, this system offers increased filtration capacity and extended service life for demanding applications.

Engineered for high performance, the EX1000 Tall produces approximately 42 gallons per hour (GPH) while maintaining an efficient 1:1 waste-to-product ratio, reducing water waste compared to traditional RO systems. Its advanced membrane technology ensures up to 98.5% contaminant rejection, delivering clean, high-quality water for a wide range of uses.

The tall filter design allows for greater dirt-holding capacity and improved pre-filtration, helping protect membranes and extend system lifespan. With durable construction and user-friendly features, the EX1000 Tall is built for reliability and long-term operation.

Key Features

• Up to 1,000 GPD water production capacity
• ~42 GPH high-flow output
• 1:1 waste-to-product ratio for improved efficiency
• Tall pre-filter housings for increased capacity and longer filter life
• Advanced RO membranes (~98.5% rejection rate)
• High-flow sediment and carbon pre-filtration
• Manual flush valve to extend membrane lifespan
• Dual pressure gauges for system monitoring
• Expandable with booster pump for increased output
• Durable powder-coated steel frame construction

Applications

The GrowoniX EX1000 Tall is ideal for hydroponic grow operations, greenhouses, aquariums, agriculture, and water purification systems where consistent, high-volume purified water is required with extended filter life.

High-Capacity Filtration with Extended Performance

With increased pre-filtration capacity and efficient water production, the GrowoniX EX1000 Tall High Flow Reverse Osmosis System delivers reliable, high-quality water while reducing maintenance and maximizing system longevity.