Reef Kalkwasser™ is a pure calcium hydroxide with unsurpassed purity and solubility characteristics. Calcium hydroxide is used to prepare limewater (kalkwasser) solutions that will maintain calcium concentrations at natural seawater levels. Kalkwasser solutions maintain calcium directly and carbonate alkalinity indirectly. However, its capacity to perform these functions is dependent on evaporation rate and CO2 concentration. If these two factors are insufficient you can provide additional calcium with Reef Advantage Calcium™, Reef Complete™, or Reef Calcium™, and carbonate alkalinity with Reef Builder™ or Reef Carbonate™ (do not mix these directly with a kalkwasser solution).
While Reef Kalkwasser™ is a high purity and economical limewater mix, the beginner, or someone with not as much time to devote to their system, may prefer to use other less involved methods for maintaining proper ionic concentration levels.
Never add this product directly to the tank. Add 3 g (1 teaspoon) to 4 L (1 gallon) of water and mix to dissolve. If using pure water, a fully saturated solution is prepared by adding 6 g (2 teaspoons) to 4 L (1 gallon). Drip this solution into tank. Monitor pH and carbonate alkalinity. Adjust rate of addition to maintain a stable pH (8.3–8.4). Notes: Adding 4 L (1 gallon) of a saturated kalkwasser solution to 150 L (40 gallons) will raise calcium by 24 mg/L. Always use the clear supernatant (top solution) only and do not allow undissolved material to enter the aquarium. Keep this container tightly closed when not in use and minimize solution/air contact to avoid calcium carbonate formation/precipitation.
|Amounts per 1 gram|
|Calcium (Ca) (min)||535 mg|
|Calcium (Ca) (max)||540 mg|
|When mixed as directed (saturated kalkwasser solution):|
|Calcium (Ca) (min)||0.9 mg|
|Calcium (Ca) (max)||0.9 mg|
Ingredients: calcium hydroxide
250g, 500 g, 1 kg, 2 kg
A: It is very likely that the excess calcium hydroxide (kalkwasser or lime water) that has settled to the bottom will not dissolve and will have to be discarded. The longer it sits, the more likely the hydroxide will convert the CO2 in the water to carbonate. This carbonate will form a precipitate with the calcium (calcium carbonate) and will not dissolve.