L'VOV B V.Kinetic parameters of CaCC>3 decomposition in vacuum,air and CO2 calculated theoretically by means of the thermochemicalapproach[J]. Reaction Kinetics, Mechanisms and Catalysis.2015,114(1): 31-40.B.V. L'vov, Kinetic parameters of CaCO3 decomposition in vacuum, air and CO2 calcu-...
W. Surface areas and morphologies of CaO produced by decomposition of large CaCO3 crystals in vacuum. Communications of the American Ceramic Society 42-44 (1982).Powell, E.K., and Searcy, A.W. "Surface-areas and morphologies of CaO produced by decomposition of large CaCO3 crystal in ...
Characterization of the porous CaO particles formed by decomposition of CaCO3 and Ca(OH)2 in vacuum. Am Ceram Soc 1980;63:439-43.D. Beruto, L. Barco, A.W. Searcy, G. Spinolo, Characterization of the porous CaO particles formed by decomposition of CaCO3 and Ca(OH)2 in vacuum, ...
An New Annotation on the Dynamic Data of CaCO3Decomposition Reaction by TGA TestNo article summary included中国硅酸盐学会
Criado J M,Ortega A.A study of the influence of particles size on the thermal decomposition of CaCO3 by meatus of constant rate thermal analysis. Thermochimica Acta . 1992Criado JM, Ortega A (1992) A study of the influence of particle size on the thermal decomposition of CaCO3 by means ...
It was found experimentally that the presence of H2O can not only advance the starting point of CaCO3 decomposition, but can also increase its reaction rate significantly. More importantly, the detailed reaction paths of CaCO3 decomposition with the presence of steam were investigated at the ...
(1982) Surface Areas and Morphologies of CaO Produced by Decomposition of Large CaCO3 Crystals in Vacuum. Journal of the American Ceramic Society, 65, C42-C44. http://dx.doi.org/10.1111/j.1151-2916.1982.tb10395.xE.K. Powell, A.W. Searcy, Surface areas and morphologies of CaO produced...
Engel, A., Abramson, L., Szlosek, J., Liu, Z., Stewart, G., Hirschberg, D., and Lee, C.: Investigating the effect of ballast- ing by CaCO3 in Emiliania huxleyi, II: Decomposition of partic- ulate organic matter, Deep-Sea Res. Pt. II, 56(18), 1408-1419, doi:10.1016/j.dsr...
In summary, the culture temperature of bacteria will affect the growth ability and urease activity of bacteria, and the urease activity of bacteria will affect the speed of urea decomposition by bacteria, thus leading to the rate of calcium carbonate precipitation MICP reaction temperature influencing...
(4) Compared with the other two enzyme source solutions, the liquid phase of the three types of acclimated bacteria in seawater can better adapt to the high-salt environment of seawater, and microbial metabolism is not inhibited, thus improving the urea decomposition ability and producing higher ...