. "I, P(7C11009), V" . . "RIV/67985858:_____/13:00394854" . "Thermal Decomposition of Sodium Hydrogen Carbonate and Textural Features of Its Calcines"@en . "Thermal Decomposition of Sodium Hydrogen Carbonate and Textural Features of Its Calcines" . "0888-5885" . "110893" . . "Industrial and Engineering Chemistry Research" . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "4"^^ . "Thermal Decomposition of Sodium Hydrogen Carbonate and Textural Features of Its Calcines"@en . . . "Poho\u0159el\u00FD, Michael" . "4"^^ . "\u0160yc, Michal" . "31" . . . . . . "000323018800032" . . . . "Hartman, Miloslav" . "The decomposition rate of sodium hydrogen carbonate (NaHCO3) into carbonate (Na2CO3) was determined as weight loss at ambient pressure and elevated temperatures up to 230 \u00B0C. A particularly slow increasing-temperature procedure and small samples of fine powders were employed to minimize heat and mass transfer intrusions. Efficient removal of the gaseous products eliminated possible equilibrium constraints. A near-first-order reaction rate equation has been presented for the decomposition reaction and also verified by the data collected by experiment in a constant-temperature mode. This correlation makes it possible to predict the reaction rate as a function of temperature and the extent of decomposition. In combination with its integrated form, it can readily be used, for example, in modeling or design of the decomposition proces." . "52" . . . . . "RIV/67985858:_____/13:00394854!RIV14-MSM-67985858" . "The decomposition rate of sodium hydrogen carbonate (NaHCO3) into carbonate (Na2CO3) was determined as weight loss at ambient pressure and elevated temperatures up to 230 \u00B0C. A particularly slow increasing-temperature procedure and small samples of fine powders were employed to minimize heat and mass transfer intrusions. Efficient removal of the gaseous products eliminated possible equilibrium constraints. A near-first-order reaction rate equation has been presented for the decomposition reaction and also verified by the data collected by experiment in a constant-temperature mode. This correlation makes it possible to predict the reaction rate as a function of temperature and the extent of decomposition. In combination with its integrated form, it can readily be used, for example, in modeling or design of the decomposition proces."@en . . . "8"^^ . "thermal decomposition; sodium hydrogen carbonate; sodium bicarbonate"@en . "10.1021/ie400896c" . "Svoboda, Karel" . "[B6064C691672]" . . "Thermal Decomposition of Sodium Hydrogen Carbonate and Textural Features of Its Calcines" .