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Introducing a novel wind-driven passive cooling strategy for polar shelters: backed by flow dynamics and irreversibility mapping with exergy analysis

Aslı Tiktaş

2025Energy Conversion and Management8 citationsDOI

Topics & Concepts

ExergyLatent heatEnvironmental sciencePassive coolingThermalActive coolingPolarMechanicsMeteorologyNuclear engineeringHeat transferPhase-change materialSolar gainASHRAE 90.1Thermal energy storageVentilation (architecture)Atmospheric sciencesMaterials scienceThermal massOverheating (electricity)Sensible heatHVACWater coolingThermodynamicsExergy efficiencyEvaporative coolerFree coolingComputational fluid dynamicsPassive solar building designAerodynamicsSpacecraft and Cryogenic TechnologiesAerospace Engineering and Energy SystemsThermodynamic and Exergetic Analyses of Power and Cooling Systems
Introducing a novel wind-driven passive cooling strategy for polar shelters: backed by flow dynamics and irreversibility mapping with exergy analysis | Litcius