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CFD analysis for predicting cooling time of a domestic refrigerator with thermoelectric cooling system

Engin Söylemez, Emre Alpman, Ayhan Onat, Selim Hartomacıoğlu

2020International Journal of Refrigeration49 citationsDOIOpen Access PDF

Abstract

In this work, Computational Fluid Dynamics (CFD) analysis was conducted considering three different turbulence (viscous) models for a fresh food compartment of a domestic refrigerator (DR), in order to not only gain idea on cooling down time rate of fresh food compartment but also present air and temperature distribution inside the compartment when it is loaded. The refrigerator composes of three compartments: Fresh food (FFC), chill (CC) and freezer (FC). The FFC compartment is cooled by a thermoelectric/Peltier cooler (TEC) while the other compartments are handled by a vapour compression (VC) system. To measure cooling times, tests were conducted according to new IEC62552:2015 standard in climatic chambers and the cooling time was measured as 146.5 min. The predictions of developed CFD model clearly visualize the airflow and temperature fields inside the FFC. Concerning numerical predictions for the packages in the upper regions were in better agreement (below 10%) with measurements than the predictions for the packages in the lower regions mainly due to convective heat transfer behaviour.

Topics & Concepts

Refrigerator carComputational fluid dynamicsThermoelectric coolingTECHeat transferMechanicsCompartment (ship)Environmental scienceTurbulenceAirflowMaterials scienceConvectionThermodynamicsThermoelectric effectNuclear engineeringEngineeringPhysicsGeologyAstronomyOceanographyIonosphereRefrigeration and Air Conditioning TechnologiesHeat Transfer and OptimizationBuilding Energy and Comfort Optimization
CFD analysis for predicting cooling time of a domestic refrigerator with thermoelectric cooling system | Litcius