Articles accepted for publication: 
Year: 2019. Issue: 01 (January-February-March)
Kagirov F.K. Improvement of the thermal scheme of the steam-blower power plant with the use of steam-ejector machines
Produced thermal calculation of steam-ejector refrigeration on the basis of methodical data of the machine, to determine its main energy characteristics. In the course of the work, the hourly steam consumption, excess steam in the summer, the hourly cooling water consumption, the working steam consumption for auxiliary ejectors, the cooling coefficient of the steam-ejector refrigeration machine is 0.21 are determined. At a steam consumption of 41.6 kg / s on a steam-ejector refrigeration machine, it is possible to cool its own coolant to 13°C, which will cool the circulating water on the condenser from 35°C to 31°C.
Manuscript published November 20, 2019; publication on the website of the magazine on November 25, 2019. www.j-et.net
Linking to an article in other Russian editions:
Кагиров Ф.К. Совершенствование тепловой схемы паровоздуходувной электростанции с применением пароэжекторных машин // Энергетика теплотехнологий. 2019. № 1. С. 25-31.
Reference to the article in other foreign editions written in Latin (English, French, German, Italian, etc.) alphabet:
Kagirov F.K. Improvement of the thermal scheme of the steam-blower power plant with the use of steam-ejector machines. Energetics of Thermal Technology. 2019. no. 1. pp. 25-31. (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.
Kagirov F.K. Sovershenstvovanie teplovoy skhemy parovozdukhoduvnoy elektrostantsii s primeneniem paroezhektornykh mashin [Improvement of the thermal scheme of the steam-blower power plant with the use of steam-ejector machines]. Energetika teplotekhnologiy [Energetics of Thermal Technology]. 2019. no. 1. pp. 25-31. (In Russian)
