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Soil Science
Kaushansky, P., Isotope Department, Weizmann Institute of Science, Rehovot, Israel
Levin, S., Theoretical Mathematics Department, Weizmann Institute of Science, Rehovot, Israel
Amiel, A.J., Moshav Ramot Meir, Israel
Calcium oxalate, having a lower solubility product than CaCO3, precipitates on the surface of host carbonate crystals in the presence of oxalate ions. This blocks the carbonate crystals from further interaction, and the process stops when the surface of the mineral grains is fully covered with Ca-oxalate. A kinetic rate equation allows detailed interpretation of the experimental results obtained by this interaction process. This equation, which has been developed in this work, can be used to determine the specific surface area of the carbonate mineral. © 1984 The Williams & Wilkins Co.
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תנאי שימוש
The precipitation of calcium oxalate on carbonate mineral surfaces
138
Kaushansky, P., Isotope Department, Weizmann Institute of Science, Rehovot, Israel
Levin, S., Theoretical Mathematics Department, Weizmann Institute of Science, Rehovot, Israel
Amiel, A.J., Moshav Ramot Meir, Israel
The precipitation of calcium oxalate on carbonate mineral surfaces
Calcium oxalate, having a lower solubility product than CaCO3, precipitates on the surface of host carbonate crystals in the presence of oxalate ions. This blocks the carbonate crystals from further interaction, and the process stops when the surface of the mineral grains is fully covered with Ca-oxalate. A kinetic rate equation allows detailed interpretation of the experimental results obtained by this interaction process. This equation, which has been developed in this work, can be used to determine the specific surface area of the carbonate mineral. © 1984 The Williams & Wilkins Co.
Scientific Publication
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