n-Butylacetate is synthesized using H2SO4-K2Cr2O7 modified coal activated carbon as catalyst.Factors influencing the reaction are discussed.It is showed that the fractional conversion of acetic acid could reach 99.2% ...n-Butylacetate is synthesized using H2SO4-K2Cr2O7 modified coal activated carbon as catalyst.Factors influencing the reaction are discussed.It is showed that the fractional conversion of acetic acid could reach 99.2% when the molar ratio of acid to n-butanol is 1∶1.5,reaction time is 2.5h,the amount of catalyst is as 5.26% as the mass of total reactants.In addition,the catalyst can be used repeatedly and has no pollution to environment.展开更多
Low-temperature heat capacities of the solid compound NaCuAsO4·1.5H2O(s)were measured using a precision automated adiabatic calorimeter over a temperature range of T=78 K to T=390 K.A dehydration process occurr...Low-temperature heat capacities of the solid compound NaCuAsO4·1.5H2O(s)were measured using a precision automated adiabatic calorimeter over a temperature range of T=78 K to T=390 K.A dehydration process occurred in the temperature range of T=368-374 K.The peak temperature of the dehydration was observed to be TD=(371.828±0.146)K by means of the heat-capacity measurement.The molar enthalpy and entropy of the dehydration were ΔDHm=(18.571±0.142)kJ/mol and ΔDSm=(49.946±0.415)J/(K·mol),respectively.The experimental values of heat capacities for the solid(Ⅰ)and the solid-liquid mixture(Ⅱ)were respectively fitted to two polynomial equations by the least square method.The smoothed values of the molar heat capacities and the fundamental thermodynamic functions of the sample relative to the standard reference temperature 298.15 K were tabulated at an interval of 5 K.展开更多
文摘n-Butylacetate is synthesized using H2SO4-K2Cr2O7 modified coal activated carbon as catalyst.Factors influencing the reaction are discussed.It is showed that the fractional conversion of acetic acid could reach 99.2% when the molar ratio of acid to n-butanol is 1∶1.5,reaction time is 2.5h,the amount of catalyst is as 5.26% as the mass of total reactants.In addition,the catalyst can be used repeatedly and has no pollution to environment.
基金Supported by the National Natural Science Foundation of China(No.20673050).
文摘Low-temperature heat capacities of the solid compound NaCuAsO4·1.5H2O(s)were measured using a precision automated adiabatic calorimeter over a temperature range of T=78 K to T=390 K.A dehydration process occurred in the temperature range of T=368-374 K.The peak temperature of the dehydration was observed to be TD=(371.828±0.146)K by means of the heat-capacity measurement.The molar enthalpy and entropy of the dehydration were ΔDHm=(18.571±0.142)kJ/mol and ΔDSm=(49.946±0.415)J/(K·mol),respectively.The experimental values of heat capacities for the solid(Ⅰ)and the solid-liquid mixture(Ⅱ)were respectively fitted to two polynomial equations by the least square method.The smoothed values of the molar heat capacities and the fundamental thermodynamic functions of the sample relative to the standard reference temperature 298.15 K were tabulated at an interval of 5 K.