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Nutrient Runoff Filtration Methods

As the cannabis industry continues to evolve in both environmental impact awareness as well as regulatory compliance, dealing with the reality of fertilizer runoff has become a topic no real professional cultivator can ignore. Gone are the days of indiscriminate wastewater disposal; no one can feign a lack of understanding of the devastating effects nutrient pollution can have on living ecosystems. It’s a well-known, widely observed and scientifically documented fact: Wastewater must be treated and/or properly disposed of.

Fortunately, there are a few different options. Depending on the needs of the operation, specialized Nutrient Runoff reverse osmosis (RO) filtration, or, recirculating hydroponic irrigation are the two most implemented systems to treat and minimize nutrient runoff wastewater. Both systems are expensive upfront, but also contribute to the overall monitoring and health of the crop, contributing to the return of investment.

Commercial Hydroponic Farm

Is Reverse Osmosis the Answer?

The most economically sustainable and least energy-intensive way to reduce fertilizer runoff volume while also ensuring a pure water input is through a specialized RO system. These systems will filter fertilizer runoff and produce low parts per million (ppm) product water. Reclaimed water is purified for easy reintroduction without the need for complex sensors or additional monitoring equipment. However, RO systems do produce concentrated wastewater that may be regulated. Other than cost, the big benefit to the grow is always working with an input of purified water, which helps optimize nutrition methods, minimize troubleshooting and downtime, and maintains complete control of water quality inputs.

Recirculating Hydroponic Irrigation

Nutrient Runoff Filtration System Cannabis Industry
Our modular Nutrient Runoff Filtration System can be added to any operation to reclaim the nutrient runoff or final flush water for reuse, reducing total water usage by 50-80%.
Recirculating hydroponic systems are another popular method of water-use optimization and waste reduction. While not a RO system, it eliminates biological contamination through disinfection (typically with chemical disinfection methods coupled with ultraviolet sterilization) and then pushes the fertilizer-heavy waste back into the input feedwater. Since the waste is mostly reusable as a nutrient formula, it is mixed with fresh water at a ratio determined by monitoring equipment which helps extend the use of the original nutrient formula input. This cycling of waste and fresh water eventually produces effluent with minerals and nutrients that are out of balance and can no longer be used for irrigation, which also may be regulated.
Both systems have benefits and drawbacks, and the correct investment is dependent on many factors, including local and state regulations, wastewater volume, and commitment to “green” infrastructure. The Reverse Osmosis method guarantees pure input water, free from the minerals and other unnecessary compounds found in the recirculatory system. RO systems with a high recovery ratio  – 75% or a 3 to 1 product to concentrate water ratio, are usually the most energy efficient and cost-effective choice. Recirculation systems, while requiring investment in sophisticated monitoring equipment and consistent water analysis, offer the extended use of nutrient formulas, saving time, money and energy.
Other options to save water, like filtering less contaminated sources such as condensate runoff, are also available for sealed and indoor cultivation environments. A thorough understanding of the site and the water-related issues it faces is essential for choosing the best wastewater management plan for your operation.
Hydroponic System