Bacterial growth thermograms of fungistatic action using a thermal activity monitor have been determined. The growth rate constants at different concentration drugs and the critical growth concentrations of the drug h...Bacterial growth thermograms of fungistatic action using a thermal activity monitor have been determined. The growth rate constants at different concentration drugs and the critical growth concentrations of the drug have also been calculated.展开更多
In this paper, thermograms of eight bacteria and growth ctirves in exponential phase of growth are presented. Growth rate constants and their temperature dependent non-llnear equations axe also established. The optimu...In this paper, thermograms of eight bacteria and growth ctirves in exponential phase of growth are presented. Growth rate constants and their temperature dependent non-llnear equations axe also established. The optimu-m growth temperattire of these bacteria can be easily caJculated from such equations. It is very informative for the study of microorganism growth.展开更多
The extraction of Co. 2+ with HEH[EHP] in kerosene from sulfate solution has been studied by a microcalorimetric method. The reaction heat has been determined from the power-time curves and the extraction equilibrium ...The extraction of Co. 2+ with HEH[EHP] in kerosene from sulfate solution has been studied by a microcalorimetric method. The reaction heat has been determined from the power-time curves and the extraction equilibrium constant and thermokinetic parameters have been evaluated. The reaction rate constants and activation energies of the forward and reverse reactions have been calculated.展开更多
文摘Bacterial growth thermograms of fungistatic action using a thermal activity monitor have been determined. The growth rate constants at different concentration drugs and the critical growth concentrations of the drug have also been calculated.
文摘In this paper, thermograms of eight bacteria and growth ctirves in exponential phase of growth are presented. Growth rate constants and their temperature dependent non-llnear equations axe also established. The optimu-m growth temperattire of these bacteria can be easily caJculated from such equations. It is very informative for the study of microorganism growth.
文摘The extraction of Co. 2+ with HEH[EHP] in kerosene from sulfate solution has been studied by a microcalorimetric method. The reaction heat has been determined from the power-time curves and the extraction equilibrium constant and thermokinetic parameters have been evaluated. The reaction rate constants and activation energies of the forward and reverse reactions have been calculated.