Articles accepted for publication: 
Year: 2019. Issue: 04 (8) (October-November-December)
Kalmykova N.S. Thermodynamic analysis of the possi-bility of using molten steel as a source of heat in the organic Rankine cycle
The main power plants for generating electricity are considered. A thermodynamic analysis of the possibility of using molten steel as a source of heat in the organic Rankine cycle with the aim of transforming the thermal energy of liquid steel into electrical energy is carried out. As a simplified version of the modernization of the existing scheme, the Organic Rankine Cycle (ORC) was chosen. A mathematical model has been developed to determine the flow rate and thermophysical parameters of the ORC working fluid cycle, depending on the type of coolant used.
Abstract received on September 18, 2019; full text published on December 22, 2019; published online December 25, 2019, www.j-et.net
Linking to an article in other Russian editions:
Калмыкова Н.С. Термодинамический анализ возможности применения расплавленной стали в качестве источника теплоты в органическом цикле Ренкина // Энергетика теплотехнологий. 2019. № 4 (8). С. 14-17.
Reference to the article in other foreign editions written in Latin (English, French, German, Italian, etc.) alphabet:
Kalmykova N.S. Thermodynamic analysis of the possi-bility of using molten steel as a source of heat in the organic Rankine cycle. Energetics of Thermal Technology. 2019. no. 4 (8). pp. 14-17. (In Russian)
Reference to the article in other foreign editions written in a non-Latin (non-English, non-French, non-German, non-Italian, etc.) alphabet:
The bibliographic description of works published in languages that do not use the Latin alphabet consists of two parts: transliteration and translation into English.
Kalmykova N.S. Termodinamicheskiy analiz vozmozhnosti primeneniya rasplavlennoy stali v kachestve istochnika teploty v organicheskom tsikle Renkina [Thermodynamic analysis of the possi-bility of using molten steel as a source of heat in the organic Rankine cycle]. Energetika teplotekhnologiy [Energetics of Thermal Technology]. 2019. no. 4 (8). pp. 14-17. (In Russian)
