INNOVATIVE SOLUTIONS IN MODERN SCIENCE

The article is devoted to the analysis of energy, economic and environmental efficiency, which are achieved by using indirect adiabatic cooling of air in the central air conditioner instead of direct cooling. Two corresponding schematic diagrams of air conditioning systems are considered. As a result of the calculations, it was found that indirect adiabatic cooling of the air makes it possible to reduce the consumption of cold and electricity by 65%. The monetary equivalent of reducing energy consumption can reach UAH 14,760 for 4 months of operation of the air conditioning system in cooling mode. Also, the use of this mode of operation of climatic equipment makes it possible to obtain a certain environmental effect in the form of reducing carbon dioxide emissions at the level of 5.15 tons per season.

Keywords: indirect evaporative cooling, refrigeration capacity, irrigation chamber, economic efficiency, ecological effect

Bogdan Porumba, Paula Ungureşana, Lucian Fechete Tutunarua, Alexandru Şerbanb, Mugur Bălana. (2016) A review of indirect evaporative cooling technology. Sustainable Solutions for Energy and Environment,85,461-471.

Ahmad, A., Rehman, S., Al-Hadhrami, L.M. (2013). Performance evaluation of an indirect evaporative cooler under controlled environmental conditions. Energy and Buildings, 62, 278-285.

Bogdan Porumba, Mugur Bălana, Raluca Porumba. (2016) Potential of indirect evaporative cooling to reduce the energy consumption in fresh air conditioning applications. Sustainable Solutions for Energy and Environment, 85, 433 – 441.

ДБН В. 2.5 – 67:2013 «Опалення, вентиляція та кондиціонування». (2013). Київ, Міністерство регіонального розвитку, будівництва та житлово – комунального господарства України, 113 с.

Белова Е.М.(2003). Системы кондиционирования воздуха с чиллерами и фэнкойлами. Москва, Евроклимат, 400

Архів погоди в Сумах < http://rp5.ua/> (2021, березень, 15).

Про встановлення тарифів на розподіл

електричної енергії з 01 січня 2020 року < https://www.soe.com.ua/ > (2021, березень, 19).

Наказ про затвердження Методики визначення енергетичної ефективності будівель (Міністерство регіонального розвитку та житлово – комунального господарства України) < https://zakon.rada.gov.ua/> (2021, березень 25).

References:

Bogdan Porumba, Paula Ungureşana, Lucian Fechete Tutunarua, Alexandru Şerbanb, Mugur Bălana. (2016) A review of indirect evaporative cooling technology. Sustainable Solutions for Energy and Environment,85,461-471.

Ahmad, A., Rehman, S., Al-Hadhrami, L.M. (2013). Performance evaluation of an indirect evaporative cooler under controlled environmental conditions. Energy and Buildings, 62, 278-285.

Bogdan Porumba, Mugur Bălana, Raluca Porumba. (2016) Potential of indirect evaporative cooling to reduce the energy consumption in fresh air conditioning applications. Sustainable Solutions for Energy and Environment, 85, 433 – 441.

DBN V. 2.5 – 67:2013 «Opalennja, ventiljacіja ta kondicіonuvannja». (2013). Kiїv, Mіnіsterstvo regіonal'nogo rozvitku, budіvnictva ta zhitlovo – komunal'nogo gospodarstva Ukraїni, 113 s.

Belova E.M.(2003). Sistemy kondicionirovanija vozduha s chillerami i fjenkojlami. Moskva, Evroklimat, 400. [in Russian]

Arhіv pogodi v Sumah < http://rp5.ua/> (2021, berezen', 15).

Pro vstanovlennja tarifіv na rozpodіlelektrichnoї energії z 01 sіchnja 2020 roku < https://www.soe.com.ua/ > (2021, berezen', 19).

Nakaz pro zatverdzhennja Metodiki viznachennja energetichnoї efektivnostі budіvel' (Mіnіsterstvo regіonal'nogo rozvitku ta zhitlovo – komunal'nogo gospodarstva Ukraїni) < https://zakon.rada.gov.ua/> (2021, berezen' 25).