Development of geothermal power engineering in Russia and abroad O. A. PovarovG. V. Tomarov OriginalPaper Pages: 165 - 174
A comparative analysis of the design features of solar collectors made in Russia and abroad. New technical solutions O. S. Popel’S. E. FridI. N. Prokopchenko OriginalPaper Pages: 175 - 180
Investigating the behavior of impurities in a multicomponent heat carrier in the flow path of a geothermal power station V. N. Semenov OriginalPaper Pages: 181 - 187
Erosion-corrosion of metals in multicomponent geothermal flows G. V. TomarovA. A. Shipkov OriginalPaper Pages: 188 - 194
Technological indicators of different schemes for accumulating heat in soil A. I. NakorchevskiiB. I. BasokT. G. Belyaeva OriginalPaper Pages: 195 - 200
Improving the efficiency of nuclear and geothermal power stations by using low environment temperatures V. M. Brodyanskii OriginalPaper Pages: 201 - 207
Independent hydrogen power installations with renewable sources of energy O. S. Popel’S. E. FridV. L. Tumanov OriginalPaper Pages: 208 - 216
Integrated reprocessing of natural gas to obtain hydrogen for power engineering purposes and carbon materials for wide use in industry V. M. ZaichenkoE. E. Shpil’rainV. Ya. Shterenberg OriginalPaper Pages: 217 - 223
The role of solar energy in the power engineering of the future D. S. Strebkov OriginalPaper Pages: 224 - 230
Biofuel and power engineering. Russia’s capabilities E. S. PantskhavaV. A. Pozharnov OriginalPaper Pages: 231 - 239
Assessment of the operation of a low-temperature adsorption refrigerator D. M. ChalaevYu. I. Aristov OriginalPaper Pages: 240 - 244