Precipitated Calcium Carbonate

Carmeuse offers a variety of lime products, including high calcium quicklime, for use in the production of precipitated production carbonate (PCC). We also provide advanced lime handling equipment, slakers, and service solutions, and our experts can provide technical support to deal with variations in your process to improve your precipitated calcium carbonate consistency and keep your slaking operations running smoothly.

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PCC

What Is Calcium Carbonate?

Calcium carbonate, which is also recognized as the chemical formula CaCO3, makes up almost five percent of the earth’s crust and is found all throughout the planet. CaCO3 is a combination of CaO (calcium oxide) and CO2 (carbon dioxide). Calcium carbonate’s most common natural forms are chalk, limestone, and marble. These forms of the material are produced by the sedimentation of prehistoric sea animal shells. Although chalk, limestone, and marble are indistinguishable in chemical terms, they are different from each other in many other ways. These differentiations include the material’s purity, whiteness, thickness and homogeneity (meaning how uniform its composition is). Calcium carbonate is a material that is as abundant as it is useful. With many different applications for the material throughout a variety of industries, it could be argued that calcium carbonate is one of the most useful and versatile materials in existence.

How Is Precipitated Calcium Carbonate (PCC) Made?

Precipitated Calcium Carbonate (PCC), also called PCC, is a synthetic calcium carbonate. PCC production requires consistent quicklime quality to produce a quality calcium carbonate. The precipitated calcium carbonate production process consists of decarbonating limestone, which separates the CaO (calcium oxide) and CO2 (carbon dioxide). Precipitated calcium carbonate is produced by slaking high-calcium quicklime to create a calcium hydroxide lime slurry, (Ca(OH)2), that is then combined with captured carbon dioxide (CO2). This process generates a very white and pure calcium carbonate with a controlled crystalline structure.

An even precipitation process allows good control of the crystallization and particle size of the PCC. Lime reactivity is key to achieving a finer particle size distribution and particle shape of PCC, as well as the stability of the process. Variations in quicklime quality can result in difficulties slaking and inconsistent particle size. This can lead to downtime, not meeting your customers’ needs, additional waste, and impact on your overall bottom line.

Lime Slaking Systems & Upgrades

Over time, equipment used to produce precipitated calcium carbonate may need updated or replaced due to normal wear and tear or for the integration of new technologies. Carmeuse Systems supplies advanced equipment solutions for lime storage, handling, and slaking.

Our expert engineers can design the right solution to keep your PCC production running smoothly, from new lime handling systems and slakers, to retrofits and upgrades for your existing equipment. For additional information related to our lime handling expertise, visit the website.

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