Effects of moisture content and porosity on the thermal conductivity and volumetric specific heat capacity of pharmaceutical powders.

[Display omitted] • Thermal conductivity and specific heat capacity of pharmaceutical powders were measured. • Effects of moisture content and porosity on the thermal properties were investigated. • Effects of binary mixtures on the thermal properties of the pharmaceutics were determined. • Models were developed to predict thermal properties. Thermal conductivity and specific heat capacity are two important parameters for the drying process of pharmaceutical materials during methods such as wet granulation that can be observed in the overall tablet manufacturing process. In this study, a transient line heat source method was used for the first time to determine the thermal conductivity and volumetric specific heat capacity of common pharmaceutical components and binary mixtures, with moisture content ranging from 0 % to 30 % w.b and active ingredient loading between 0 % and 50 % by weight. A three-parameter least squares regression model relating the thermal properties to moisture content and porosity was evaluated at a 95 % confidence interval, with R2 values ranging from 0.832 to 0.997. Relationships were established between thermal conductivity, volumetric specific heat capacity, porosity, and moisture content for pharmaceutical ingredients including acetaminophen, microcrystalline cellulose, and lactose monohydrate. [ABSTRACT FROM AUTHOR]