High CYA is one of the most common and most frustrating pool chemistry problems — and it has exactly one reliable solution. Despite what some pool stores sell and what some YouTube videos claim, there is no effective chemical method for reducing cyanuric acid at pool scale. This guide covers how to calculate the correct drain-and-refill volume, when reverse osmosis is a better option, and what to watch for on fill water that might cause CYA to creep up again.
Cyanuric acid (isocyanuric acid, 1,3,5-triazine-2,4,6-triol) is a very stable organic compound. Unlike chlorine, which reacts rapidly with organic matter and breaks down in sunlight, CYA is highly resistant to chemical degradation in pool conditions. It doesn't significantly react with chlorine at pool pH. It isn't broken down by UV light at practical exposure levels. It doesn't precipitate or settle out of solution at pool chemistry ranges.
Products marketed as "CYA reducers" or "stabilizer reducers" typically claim one of two mechanisms:
CYA reduction through dilution follows a simple linear relationship. The percentage of pool volume drained equals the percentage reduction in CYA (assuming the fill water has zero CYA, which is true for most municipal water).
| Current CYA | Target CYA | % Drain Required | Water Removed (15K gal pool) |
|---|---|---|---|
| 100 ppm | 50 ppm | 50% | 7,500 gal |
| 100 ppm | 30 ppm | 70% | 10,500 gal |
| 150 ppm | 50 ppm | 67% | 10,000 gal |
| 80 ppm | 40 ppm | 50% | 7,500 gal |
| 120 ppm | 30 ppm | 75% | 11,250 gal |
Formula: % to drain = (current CYA - target CYA) / current CYA × 100
Municipal water typically contains no CYA. However, in some areas, source water from ponds, lakes, or reclaimed water sources may contain low-level organic compounds including triazines. If you suspect the fill water has CYA, test it. Well water is almost always CYA-free; municipal surface water should be tested seasonally in areas where agricultural runoff is a concern.
In drought-restricted areas, water-limited climates, or situations where a large drain is inadvisable (vinyl liner, fiberglass, high water table), reverse osmosis filtration is a viable alternative to draining.
A mobile RO unit connected to the pool can reduce CYA from 150 ppm to 30 ppm without removing any significant pool volume. The RO process also simultaneously reduces TDS, nitrates, phosphates, calcium hardness, and most dissolved minerals — essentially producing a water chemistry "reset" without discarding any water.
After correcting high CYA, prevent it from creeping up again by:
SplashLens logs CYA readings with timestamps for every account — so you can see when CYA is trending toward the correction zone months before it becomes an emergency drain situation. Catch it early and switch chlorine sources. Free and offline.
Open SplashLens Free →The only reliable methods for lowering CYA in a pool are partial drain-and-refill with lower-CYA water, or reverse osmosis filtration. No chemical product reliably reduces CYA at pool scale. To lower CYA by 50%, drain 50% of pool water and refill with CYA-free fill water.
No pool chemical product reliably reduces CYA at pool scale. Some products claim to degrade cyanuric acid using biological or enzymatic processes, but peer-reviewed pool chemistry research has not validated these claims at practical pool doses. The only methods that reliably reduce CYA are draining and reverse osmosis filtration.
CYA reduction is linear with dilution. To lower CYA by 25%, drain 25% and refill. To lower by 50%, drain 50% and refill. Formula: % to drain = (current CYA - target CYA) / current CYA × 100. For a 15,000-gallon pool needing to go from 100 ppm to 30 ppm, drain approximately 70% (10,500 gallons).
Most pool professionals recommend a drain when CYA exceeds 90–100 ppm for outdoor chlorine pools, or 80–100 ppm in SWG pools. Above these levels, the minimum effective free chlorine becomes impractical to maintain safely and consistently.