Detail publikace
Sustainable air conditioning with a focus on evaporative cooling and the Maisotsenko cycle
POKORNÝ, J. MADEJSKI, P. FIŠER, J.
Anglický název
Sustainable air conditioning with a focus on evaporative cooling and the Maisotsenko cycle
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
Evaporative cooling can be an answer to the growing global demand for energy efficient and sustainable air conditioning. Direct evaporative cooling is the traditional method of cooling air to wet-bulb temperature. Indirect evaporative cooling uses heat exchangers with wet and dry channels to cool air indirectly, avoiding an increase in humidity. The Maisotsenko cycle is a dew point indirect evaporative cooling that allows air to be cooled below wet-bulb temperature using a heat and mass exchanger with a coupled wet and dry channel. It can be used as a stand-alone system, or as coupled with traditional refrigerantbased cooling systems, or as a heat recovery process to improve the efficiency in the power industry applications. A Pythonbased computational tool for simulating of 1D heat and mass transfer in the Maisotsenko cycle is presented here. It uses a spatially discretised differential equation solver and a psychrometric chart. The 1D model and experimental data from the study of Pakari were used as a reference for the initial testing. The comparison results are promising, suggesting a potential application in the design of sustainable cooling.
Anglický abstrakt
Evaporative cooling can be an answer to the growing global demand for energy efficient and sustainable air conditioning. Direct evaporative cooling is the traditional method of cooling air to wet-bulb temperature. Indirect evaporative cooling uses heat exchangers with wet and dry channels to cool air indirectly, avoiding an increase in humidity. The Maisotsenko cycle is a dew point indirect evaporative cooling that allows air to be cooled below wet-bulb temperature using a heat and mass exchanger with a coupled wet and dry channel. It can be used as a stand-alone system, or as coupled with traditional refrigerantbased cooling systems, or as a heat recovery process to improve the efficiency in the power industry applications. A Pythonbased computational tool for simulating of 1D heat and mass transfer in the Maisotsenko cycle is presented here. It uses a spatially discretised differential equation solver and a psychrometric chart. The 1D model and experimental data from the study of Pakari were used as a reference for the initial testing. The comparison results are promising, suggesting a potential application in the design of sustainable cooling.
Klíčová slova anglicky
Sustainability; Cooling; M-cycle; Python; 1D model
Vydáno
03.07.2025
Nakladatel
IMP PAN Publishers
Místo
Gdańsk, Poland
ISSN
2083-6023
Ročník
46
Číslo
2
Strany od–do
111–121
Počet stran
11
BIBTEX
@article{BUT198307,
author="Jan {Pokorný} and Pawel {Madejski} and Jan {Fišer},
title="Sustainable air conditioning with a focus on evaporative cooling and the Maisotsenko cycle",
year="2025",
volume="46",
number="2",
month="July",
pages="111--121",
publisher="IMP PAN Publishers",
address="Gdańsk, Poland",
issn="2083-6023"
}