Articles accepted for publication: 
Year: 2019. Issue: 04 (8) (October-November-December)
Kartavtsev S.V., Matveev S.V. Prospects of application of liquid metal heat carriers for power engineering heat technology of ferrous metallurgy
The paper analyzes the prospects of using liquid metal heat carriers of nuclear power plants for the heat technology of ferrous metallurgy. On the example of the previously studied thermal engineering principles, the question of using light liquid metal heat carriers for utilization of the heat of liquid steel is considered. Currently, all the heat of liquid steel, during its crystallization, is completely lost with water to the environment with a temperature potential of 30-35°C. By developing and using new heat engineering equipment, it becomes possible to switch to low-water technology while increasing the temperature potential and using it for the energy needs of the enterprise. It is shown that the use of heavy liquid metal heat carriers will allow expanding the temperature range of new technologies using the temperature potential of 1500°C in heat-power cycles.
Abstract received October 18, 2019; full text published December 22, 2019; published online December 25, 2019, www.j-et.net
Linking to an article in other Russian editions:
Картавцев С.В., Матвеев С.В. Перспективы применения жидкометаллических теплоносителей для энергетики теплотехнологии черной металлургии // Энергетика теплотехнологий. 2019. № 4 (8). С. 10-13.
Reference to the article in other foreign editions written in Latin (English, French, German, Italian, etc.) alphabet:
Kartavtsev S.V., Matveev S.V. Prospects of application of liquid metal heat carriers for power engineering heat technology of ferrous metallurgy. Energetics of Thermal Technology. 2019. no. 4 (8). pp. 10-13. (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.
Kartavtsev S.V., Matveev S.V. Perspektivy primeneniya zhidkometallicheskikh teplonositeley dlya energetiki teplotekhnologii chernoy metallurgii [Prospects of application of liquid metal heat carriers for power engineering heat technology of ferrous metallurgy]. Energetika teplotekhnologiy [Energetics of Thermal Technology]. 2019. no. 4 (8). pp. 10-13. (In Russian)
