CRITICAL ANALYSIS OF EXISTING AIR RECOVERY SYSTEMS

Article Sidebar

PDF (Русский)
Published: Sep 26, 2025
DOI: https://doi.org/10.29039/2413-1873-2025-38-53-57
UDK: 697.978
Keywords:
рекуперация воздуха, аэро-, термо-, термодинамические процессы, совершенствование

air recovery, aero-, thermo-, thermodynamic processes, improvement

Main Article Content

O. N. Zaitsev
SouthWest State University
I. P. Angeluck
Crimean Federal University named after V.I. Vernadsky
D. M. Petrenko
Crimean Federal University named after V.I. Vernadsky

Abstract

The article examines existing air recovery schemes, aerodynamic and thermodynamic processes that occur when air flows are mixed in recuperators of various types, provides a critical analysis of the design features of recuperators of various types, as well as opportunities for improvement and development in this area.


Subject: aerodynamic and thermodynamic processes occurring in air recuperators.


Materials and methods: study of existing air recovery schemes based on scientific articles, publications, patents, scientific literature, as well as regulatory legislation in this area.


Results: results were obtained on air recovery schemes, technical characteristics, technological and design features, heat exchange efficiency, as well as the efficiency of various types of recuperators.


Conclusions: a critical analysis of existing air recovery systems in heating and ventilation systems of buildings and structures was carried out, the level of efficiency of these systems, as well as the possibility of improving and developing air recuperators of the most promising types.

Article Details

How to Cite
[1]
Zaitsev O.N. CRITICAL ANALYSIS OF EXISTING AIR RECOVERY SYSTEMS [Electronic resource]/ O.N. Zaitsev, I.P. Angeluck, D.M. Petrenko // Construction and industrial safety. — 2025. — № 38(90). — p.53-57. — DOI: 10.29039/2413-1873-2025-38-53-57.
Issue
No. 38(90) (2025)
Section
Engineering support

References

Ястребов А.В. Зекин В.Н. Статья «Рекуперация воздуха: виды, принципы работы, функции» Международный научный журнал «ВЕСТНИК НАУКИ» №4 (49) Т.1 Апрель 2022 г.

А.С. Ильин Повышение энергетической эффективности систем вентиляции и кондиционирования объектов ЖКХ» «Сибирский Федеральный Университет», Красноярск, 2017 год.

Ю.Д. Сибикин. Отопление, вентиляция и кондиционирование воздуха 2015 год.

Zaycev O.N. Angeluck I.P., Toporen S.S. Experimental study of the aerodynamic resistance of a conical-spiral heat exchanger of the outgoing flue gases // IOP Conf. Series: Materials Science and Engineering. – 2019. – №698 – 055033.

G.B. Gharehpetian. S. Mohammad Mousavi Agah. 2017. Distributed generation systems.

Yusuf BaşoğulOnur. Vahip GülerAli Keçebaş. Binary geothermal power plant. Thermodynamic Analysis and Optimization of Geothermal Power Plants, 2021

Egorov S. A., Zaycev O. N., Angeluck I.P., Sivachenko Yu. A. Thermodynamic characteristics of the flue gas heat recuperator of a combined autonomous heat generating unit // AIP Conference Proceedings 2434. – 2022. – 020023 https://doi.org/10.1063/5.0091673.

Н.И.Ватин, М.В. Смотракова, Технико-экономическое обоснование применения систем вентиляции с роторной рекуперацией тепла. Санкт-Петербург 2003 год.

И.Ю. Игнаткина. Система рекуперации теплоты с адаптивной рециркуляцией вытяжного воздуха. Вестник ВНИИМЖ №1(33)-2019

Вдовичев А.А. Численное исследование теплопереноса и аэродинамики в перекрестно-точном рекуператоре открытого типа // Вестник Евразийской науки. 2022. №2. Режим доступа: elibrary.ru/download/elibrary_49089452_31549355.pdf (дата обращения: 30.08.2022).