Calculate priming sugar amounts for bottle conditioning beer and cider. Supports dextrose, table sugar, DME, honey, and Belgian candi sugar.
Bottle conditioning requires exact amounts of priming sugar to achieve the right carbonation level. Too little and your beer is flat. Too much and bottles can over-carbonate or even explode. This calculator takes the guesswork out of it.
Enter your batch size, beer temperature (which determines residual CO₂), and desired carbonation volumes. The calculator outputs exact weights for multiple sugar types: corn sugar (dextrose), table sugar (sucrose), dry malt extract (DME), honey, and Belgian candi sugar. Each sugar type has a different fermentability, so the amounts are not interchangeable without conversion.
Carbonation targets vary by style: British ales sit around 1.5–2.0 volumes CO₂. American ales and lagers run 2.3–2.8 volumes. Belgian ales can go up to 3.5+ volumes. German weizens push even higher at 3.0–4.5 volumes. This calculator includes style-based presets so you can hit the target without looking up charts. It is useful both for first-time bottling days and for repeat batches where you want the same carbonation profile every time.
Priming sugar is one of the easiest places to ruin an otherwise finished batch, because residual CO2, sugar fermentability, and package size all matter at once. This calculator keeps the bottling step repeatable, helps you swap between dextrose, sucrose, DME, and honey correctly, and reduces the risk of both flat bottles and dangerous over-carbonation.
Sugar (g) = (vol_CO₂_target - vol_CO₂_residual) × batch_liters × sugar_factor. Residual CO₂ ≈ 3.0378 - 0.050062 × T + 0.00026555 × T². Corn sugar factor: 4.0g/L per volume. Table sugar factor: 3.8g/L. DME factor: 5.33g/L. Honey factor: 5.0g/L.
Result: 113g (4.0 oz) of corn sugar (dextrose)
Residual CO₂ at 68°F ≈ 0.83 volumes. Additional needed: 2.4 - 0.83 = 1.57 volumes. Batch is 18.93L. 1.57 × 18.93 × 4.0 = 119g corn sugar. With a safety check, 113g is recommended.
One "volume" of CO₂ means each liter of beer contains one liter of dissolved CO₂ at standard temperature and pressure. Most beers fall between 2.0 and 3.0 volumes. A flat beer is about 0.8 volumes. A champagne-like Belgian tripel can reach 4.0 volumes.
Corn sugar (dextrose) is the gold standard for priming: clean fermentation, predictable results. Table sugar (sucrose) works equally well and is cheaper — the yeast splits sucrose into glucose and fructose instantly. DME adds a tiny malt character but is less predictable. Honey adds subtle flavor but variable fermentability.
Over-carbonation is the #1 homebrewing safety issue. Causes: adding too much sugar, bottling before fermentation is complete (residual sugars keep fermenting), uneven sugar distribution, or infection. Always verify terminal gravity is stable before bottling by taking readings 2–3 days apart.
Corn sugar (dextrose) is 91% as fermentable as table sugar (sucrose) by weight. Use 3–5% more dextrose to achieve the same carbonation. Many brewers prefer dextrose because it ferments cleaner.
Yes! Cold beer holds more dissolved CO₂ from fermentation. A beer at 40°F has ~1.7 residual volumes; at 70°F it has ~0.8 volumes. Warm beer needs more priming sugar.
2–3 weeks at 68–72°F for ales. Lagers may take 3–4 weeks. Higher-gravity beers take longer. Don't refrigerate bottles until carbonation is complete.
Yes, but honey is only ~80% fermentable sugar by weight (the rest is water and non-fermentable compounds). You need about 25% more honey by weight than corn sugar.
British ales: 1.5–2.0. American ales: 2.3–2.8. Lagers: 2.4–2.8. Belgians: 2.5–3.5. Hefeweizen: 3.0–4.5. Higher carbonation requires stronger bottles.
Yes! Exceeding 4.0 volumes in standard bottles is dangerous. Always measure sugar carefully. Use a scale, not volume measurements. Never prime in bulk in the bottling bucket and mix thoroughly.