Clear pond and irrigation water with confidence quickly. Tune dose using jar tests and strength. Save, print, and share calculations for your team always.
| Water Volume | Target Dose | Active % | Jar Factor | Safety | Estimated Product |
|---|---|---|---|---|---|
| 200 L | 10 mg/L | 100% | 1.00 | 10% | 2.244 g |
| 1 m³ | 20 mg/L | 50% | 1.10 | 15% | 50.600 g |
| 500 US gal | 8 mg/L | 30% | 0.90 | 10% | 45.900 g |
Active_g = Dose_mgL × Volume_L ÷ 1000 × JarFactorActive_adj = Active_g × (1 + MixingLoss%) × (1 + Safety%)Product_g = Active_adj ÷ (Active% ÷ 100)Product_mL = Product_g ÷ Density_gmL (if liquid)Stock_L = Product_g ÷ StockStrength_gL (optional)Jar testing remains the most reliable way to choose a starting dose. Prepare equal samples, mix rapidly for 30–60 seconds, then mix gently for 2–5 minutes. Let settle for 15–30 minutes and score clarity. Record the dose that forms the fastest, firmest floc without persistent haze.
Turbidity offers a quick indicator of demand, but it is not a direct dosing rule. At 20–80 NTU, many garden ponds clarify with 5–15 mg/L. At 80–200 NTU, a typical working range is 10–30 mg/L. Above 200 NTU, consider staged treatment: dose, settle, decant, then repeat.
Labels often list active ingredient as a percentage. The calculator converts the required active mass into actual product mass, so a 50% solution needs roughly double the grams compared with a 100% powder. For liquids, density refines the estimated milliliters to measure with a syringe or graduated cylinder.
Uneven mixing is a common reason results differ from the jar test. Mixing loss allowance covers dead zones, short-circuiting, and product sticking to containers. A modest safety factor improves consistency when water quality changes during the day, especially after rainfall, soil disturbance, or algae die‑off. Avoid excessive buffers that can over-treat.
Save CSV or PDF outputs as treatment logs. Track volume, dose, active percentage, temperature, and pH alongside outcomes such as clarity after one hour and sludge thickness after settling. Over several runs, you can establish site-specific dose bands for seasonal shifts, making future clarification faster and reducing product waste. For irrigation tanks, aim for a clear supernatant and compact sludge. If clarity improves but fine cloud remains, reduce gentle mix time or try a slightly higher jar factor. When treating fish ponds, aerate during dosing and monitor behavior. Stop and dilute if stress appears then recheck clarity after 30 minutes.
Start low, such as 5–10 mg/L for mildly cloudy water. Mix well, let settle, and only increase in small steps if clarity remains poor after 30–60 minutes.
Different products contain different strengths. The active percentage converts the required active mass into the actual grams of product you must add for the same treatment dose.
Use a stock solution when the required amount is hard to weigh accurately, such as very small pond sections. Dissolve a known mass in water, then dose the calculated volume.
Yes. Overdosing can leave residual haze, create excess sludge, or stress aquatic life. Use conservative buffers, apply gradually, and avoid big jumps. If unsure, dilute and repeat with better mixing.
Extreme pH can reduce polymer effectiveness, while cold water slows floc growth and settling. Near-neutral pH and moderate temperatures typically give faster clarification with the same dose.
Repeat only after the first dose has fully settled and you can judge clarity. If the source keeps adding silt, address erosion first, then use smaller maintenance doses when needed.
Important Note: All the Calculators listed in this site are for educational purpose only and we do not guarentee the accuracy of results. Please do consult with other sources as well.