Application of the methods of thermodynamics of irreversible processes to the investigation of heat and mass transfer A. V. Luikov OriginalPaper Pages: 189 - 202
Determination of internal heat and mass transfer parameters using characteristic functions of the thermodynamics of irreversible processes A. G. Temkin OriginalPaper Pages: 203 - 213
Thermodynamics of irreversible processes and derivation of a system of differential equations for molecular transfer P. V. Tsoi OriginalPaper Pages: 214 - 217
Experimental study of some thermodynamic properties of complex solutions at low temperatures (to−196° C) S. I. KosterinB. M. Pavlov OriginalPaper Pages: 218 - 220
Determination of the thermodynamic functions of the moisture absorbed by a disperse body from its specific heat of evaporation V. M. Kazanskii OriginalPaper Pages: 221 - 223
Equation of state of nitric oxide over the temperature range 190–2000° K at densities of 0–20 kmole/m3 A. G. TabachnikovL. S. Serdyuk OriginalPaper Pages: 224 - 227
The use of thermodynamic similarity for investigation of the properties of gas mixtures Ya. Z. Kazavchinskii OriginalPaper Pages: 238 - 241
Thermodynamic investigation of heat and mass transfer in a nonuniform gas suspension flow I. T. El'perin OriginalPaper Pages: 249 - 252
The reciprocity principle in the thermodynamics of irreversible processes P. K. Konakov OriginalPaper Pages: 253 - 258
Evaluation of kinetic energy losses in fluid flow in tubes P. N. RomanenkoV. N. Kharchenko OriginalPaper Pages: 264 - 268
Generalized equation of moisture diffusivity and its solution M. S. Smirnov OriginalPaper Pages: 269 - 272
Study of mass transfer in the extraction of moisture from capillary-porous materials R. I. VenediktovaN. M. Rudnyi OriginalPaper Pages: 273 - 274
Influence of depth of evaporation surface on convective heat and mass transfer in evaporative cooling G. V. Vasil'eva OriginalPaper Pages: 280 - 281
On the article “use of classical concepts as part of a new basis for the second law of thermodynamics” Ya. Z. Kazavchinskii Discussion Pages: 282 - 284
Basis of the entropy existence principle in thermodynamics E. T. BartoshN. F. VolkovB. A. Romanov Discussion Pages: 285 - 288