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ISSN Печать: 2150-3621
ISSN Онлайн: 2150-363X
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HEAT- AND MASS-TRANSFER PROCESESS IN INDIRECT EVAPORATIVE AIR CONDITIONERS THROUGH THE MAISOTSENKO CYCLE
Краткое описание
This report investigates a mathematical simulation of heat and mass transfer in a crossflow heat exchanger designed using the Maisotsenko cycle. This heat exchanger has been recently used in air conditioning units by utilizing the benefits of indirect evaporative cooling. A one-dimensional heat- and mass-transfer model is developed to perform thermal calculations of the indirect evaporative cooling process, thus quantifying overall heat exchanger performance. This mathematical model accounts for many unique features of the cross-flow heat exchanger, enabling an accurate prediction of performance. Results of the model show high efficiency gains that are sensitive to various inlet conditions and allow for estimation of optimum operating conditions, including suitable climatic zones for the proposed unit.
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Anisimov Sergey, Pandelidis Demis, Danielewicz Jan, Numerical analysis of selected evaporative exchangers with the Maisotsenko cycle, Energy Conversion and Management, 88, 2014. Crossref
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Pandelidis Demis, Anisimov Sergey, Numerical analysis of the heat and mass transfer processes in selected M-Cycle heat exchangers for the dew point evaporative cooling, Energy Conversion and Management, 90, 2015. Crossref
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Anisimov Sergey, Pandelidis Demis, Numerical study of the Maisotsenko cycle heat and mass exchanger, International Journal of Heat and Mass Transfer, 75, 2014. Crossref
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Anisimov Sergey, Pandelidis Demis, Jedlikowski Andrzej, Polushkin Vitaliy, Performance investigation of a M (Maisotsenko)-cycle cross-flow heat exchanger used for indirect evaporative cooling, Energy, 76, 2014. Crossref
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Anisimov Sergey, Pandelidis Demis, Theoretical study of the basic cycles for indirect evaporative air cooling, International Journal of Heat and Mass Transfer, 84, 2015. Crossref
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Anisimov Sergey, Jedlikowski Andrzej, Pandelidis Demis, Frost formation in the cross-flow plate heat exchanger for energy recovery, International Journal of Heat and Mass Transfer, 90, 2015. Crossref
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Jedlikowski Andrzej, Anisimov Sergey, Danielewicz Jan, Karpuk Michał, Pandelidis Demis, Frost formation and freeze protection with bypass for counter-flow recuperators, International Journal of Heat and Mass Transfer, 108, 2017. Crossref
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Jedlikowski Andrzej, Anisimov Sergey, Analysis of the frost formation and freeze protection with bypass for cross-flow recuperators, Applied Thermal Engineering, 116, 2017. Crossref
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Pandelidis Demis, Pacak Anna, Cichoń Aleksandra, Anisimov Sergey, Drąg Paweł, Vager Borys, Vasilijev Vladimir, Multi-stage desiccant cooling system for moderate climate, Energy Conversion and Management, 177, 2018. Crossref
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Pacak Anna, Jedlikowski Andrzej, Karpuk Michał, Anisimov Sergey, Analysis of power demand calculation for freeze prevention methods of counter-flow heat exchangers used in energy recovery from exhaust air, International Journal of Heat and Mass Transfer, 133, 2019. Crossref
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Aleem Muhammad, Hussain Ghulam, Sultan Muhammad, Miyazaki Takahiko, Mahmood Muhammad H., Sabir Muhammad I., Nasir Abdul, Shabir Faizan, Khan Zahid M., Experimental Investigation of Desiccant Dehumidification Cooling System for Climatic Conditions of Multan (Pakistan), Energies, 13, 21, 2020. Crossref
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Ashraf Hadeed, Sultan Muhammad, Shamshiri Redmond R., Abbas Farrukh, Farooq Muhammad, Sajjad Uzair, Md-Tahir Hafiz, Mahmood Muhammad H., Ahmad Fiaz, Taseer Yousaf R., Shahzad Aamir, Niazi Badar M. K., Dynamic Evaluation of Desiccant Dehumidification Evaporative Cooling Options for Greenhouse Air-Conditioning Application in Multan (Pakistan), Energies, 14, 4, 2021. Crossref