Articles accepted for publication: 
Year: 2018. Issue: 03 (July-August-September)
Neshporenko E.G., Baskakova A.A. Mathematical model of the thermal state of the plate with uniformly distributed purge holes
The work is devoted to the development of a combined method of supplying the coolant with simultaneous cooling of the fencing of a high-temperature industrial installation and is aimed at creating an “active” fencing that reduces heat losses and brings the installation to the ideal. For an effective solution of the task, the methodology of intensive energy saving is used. The results of the work will allow the creation of new compact equipment applicable to melt systems in connection with reductive melting in the heat technology of ferrous metallurgy.
Abstract was received on November 05, 2018; the full text was published on December 20, 2018; publication on the website of the magazine on December 25. www.j-et.net
Linking to an article in other Russian editions:
Нешпоренко Е.Г., Баскакова А.А. Математическая модель теплового состояния пластины с равномерно распределёнными продуваемыми отверстиями // Энергетика теплотехнологий. 2018. № 4. С. 9-12.
Reference to the article in other foreign editions written in Latin (English, French, German, Italian, etc.) alphabet:
Neshporenko E.G., Baskakova A.A. Mathematical model of the thermal state of the plate with uniformly distributed purge holes. Energetics of Thermal Technology. 2018. no. 4. pp. 9-12. (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.
Neshporenko E.G., Baskakova A.A. Matematicheskaja model' teplovogo sostojanija plastiny s ravnomerno raspredeljonnymi produvaemymi otverstijami. [Mathematical model of the thermal state of the plate with uniformly distributed purge holes]. Energetika teplotekhnologiy [Energetics of Thermal Technology]. 2018. no. 4. pp. 9-12. (In Russian)
