Rain doesn't just add water to a pool — it adds dilution, contamination, pH disruption, and new organic load that the existing sanitizer wasn't dosed for. A single heavy storm can undo a week's worth of careful chemistry. Knowing exactly what to test and in what order prevents a reactive scramble and keeps service visits efficient.
Rainwater is chemically distinct from pool water in every meaningful way. Understanding the effects prevents the mistake of just "dumping in some chlorine and hoping for the best" after a storm.
Rainwater is slightly acidic — natural rainwater is pH 5.6, and rain in urban or industrial areas can be as low as 4.5 due to atmospheric pollutants (acid rain). When large volumes enter the pool, they pull pH and total alkalinity down. After a 2+ inch rainfall, expect pH to drop 0.2–0.5 units and TA to drop 10–20 ppm, depending on pool volume and rain volume.
Rain dilutes all dissolved chemicals, including free chlorine, proportionally. But it also adds new oxidant demand: organic material from the air (pollen, dust, bird waste), lawn runoff (fertilizers, pesticides, phosphates), and atmospheric nitrogen compounds that consume chlorine. The combined effect means chlorine drops faster than simple dilution would predict.
A 2-inch rainfall adds roughly 1,200 gallons to a standard 15,000-gallon pool (approximately 8% dilution). This proportionally reduces all dissolved chemicals: CYA, salt (in SWG pools), calcium hardness. The effect is cumulative — after a rainy week with multiple events, CYA may have dropped 15–20% from where it started.
Storms introduce pollen, dust, bird droppings, lawn chemicals, and atmospheric debris. All of these are organic compounds that consume chlorine and can feed algae. Heavy storms following dry periods are particularly high-contamination events — all the accumulated dust and pollen that collected during the dry period washes in at once.
Wait until rain has stopped and allow the pump to circulate for at least 30 minutes before taking a water sample. Then test in this order:
| Parameter | Test First? | Expected Direction | Target |
|---|---|---|---|
| pH | Yes | Down | 7.4–7.6 |
| Total Alkalinity | Yes | Down | 80–120 ppm |
| Free Chlorine | Yes | Down | 1–3 ppm (adjust per CYA) |
| CYA | If major storm | Down slightly | 30–50 ppm |
| Salt (SWG pools) | If major storm | Down | Per controller spec |
| Phosphates | After heavy runoff | Up | Below 100 ppb |
If the pool overflowed or water is above the midpoint of the skimmer opening, drain to operating level first using the waste or backwash port. Running with water above the skimmer floods the skimmer and eliminates surface skimming — the first line of debris removal. After draining to level, run the pump to re-circulate before testing.
TA before pH — because TA is the buffer that makes pH adjustments stable. If TA is below 80 ppm, add sodium bicarbonate (baking soda) to bring it to 100 ppm. Add at a rate of 1.5 lbs per 10,000 gallons to raise TA by approximately 10 ppm. Allow 2 hours of circulation before retesting.
After TA is in range, correct pH to 7.4–7.6. After rain, pH is typically low — add sodium carbonate (soda ash) to raise it. Add 6 oz per 10,000 gallons to raise pH by approximately 0.2 units. Retest after 30 minutes.
Don't skip the alkalinity step. If you adjust pH without first correcting TA, the pH will drift back down quickly because the buffer capacity is too low to hold it. Fix TA first, then pH.
After pH and TA are in range, shock the pool to address contamination and restore sanitizer. Standard post-rain dose: 1 lb of calcium hypochlorite (65%) per 10,000 gallons. For heavy storms with visible debris or runoff contamination, use 2 lbs. Add at dusk, run the pump overnight.
If the storm included lawn runoff or the pool is surrounded by landscaping, test phosphates after chlorine normalizes (48 hours post-shock). If phosphates are above 500 ppb, treat with a phosphate remover before the next regular service visit to prevent algae from capitalizing on the nutrient influx.
Every inch of rainfall above the pool's overflow level represents water that either goes over the pool edge or must be drained. Pools in areas with frequent summer thunderstorms benefit from a standpipe or automatic overflow drain set to the correct operating level. Without this, significant dilution events happen repeatedly without clear accounting.
Never use the main drain to lower pool water level — main drains aren't designed for continuous drain flow and lack filtration on the waste path. Use the backwash/waste port on the multiport valve, or a submersible pump, to remove excess water. The main drain is for suction, not waste.
Chemical treatment is ineffective if physical debris isn't removed first. After storms:
Log all post-storm service in SplashLens with the storm date, readings before and after treatment, and chemicals added. Accounts that consistently show severe chemistry disruption after rain events may benefit from a cover pump or better deck drainage to reduce runoff inflow.
Log water test results before and after storm events to see exactly how each account responds to rain. Identify which pools need immediate follow-up and which hold chemistry well — and plan service routes accordingly.
Open SplashLens Free →Rain typically lowers pH. Rainwater is slightly acidic (pH 5.6–6.5). Large rain volumes dilute the pool's total alkalinity buffer and pull pH downward. After heavy rain, test pH and total alkalinity first — both commonly need to be raised.
A 2-inch rainfall adds roughly 1,200 gallons to a 15,000-gallon pool — about 8% dilution. This drops all dissolved chemicals proportionally: a pool at 50 ppm CYA drops to about 46 ppm after 2 inches of rain.
No. Adding chemicals during active rain is ineffective — the rain dilutes them immediately, water level may overflow, and conditions aren't stable for accurate testing. Wait until rain stops, allow 30 minutes of circulation, then test and treat.
After testing and adjusting chemistry to: FC 1–3 ppm, pH 7.4–7.6, TA 80–120 ppm. If you shocked after the storm, allow FC to drop below 5 ppm before swimming. A pool is ready when chemistry confirms it, not based on time elapsed.