Articles accepted for publication: 
Year: 2019. Issue: 04 (8) (October-November-December)
Khasanova R.V. Development of an energy-saving scheme for post-cooling of compressed gas due to injection of liquid air separation products
In modern industry, a large volume of air separation products is consumed, which requires a significant amount of energy to produce. The share of energy costs for air compression and its air separation products is up to 90% of all energy costs of the air separation unit. The purpose of this work is to improve the system of intermediate gas cooling in a compressor unit that is part of the VRU by pre-cooling the compressed gas by partially replacing the surface heat exchange with a volumetric one. The object of the study is the intermediate cooling system of the compressor unit.
Abstract received July 21, 2019; full text published December 22, 2019; published online December 25, 2019, www.j-et.net
Linking to an article in other Russian editions:
Хасанова Р.В. Разработка энергосберегающей схемы доохлаждения сжатого газа за счет впрыска жидких продуктов разделения воздуха // Энергетика теплотехнологий. 2019. № 4 (8). С. 23-27.
Reference to the article in other foreign editions written in Latin (English, French, German, Italian, etc.) alphabet:
Khasanova R.V. Development of an energy-saving scheme for post-cooling of compressed gas due to injection of liquid air separation products. Energetics of Thermal Technology. 2019. no. 4 (8). pp. 23-27. (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.
Khasanova R.V. Razrabotka energosberegayushchey skhemy dookhlazhdeniya szhatogo gaza za schet vpryska zhidkikh produktov razdeleniya vozdukha [Development of an energy-saving scheme for post-cooling of compressed gas due to injection of liquid air separation products]. Energetika teplotekhnologiy [Energetics of Thermal Technology]. 2019. no. 4 (8). pp. 23-27. (In Russian)
