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Development and performance evaluation of a honeycomb-structured shell-and-tube thermal storage system integrating a series of openings on the hexagonal cells for enhanced energy absorption/release

Sanam Nekahi, Farhad Sadegh Moghanlou, Mohammad Vajdi, Kourosh Vaferi, Sahar Nekahi, Towhid Gholizadeh

2026International Communications in Heat and Mass Transfer5 citationsDOI

Topics & Concepts

Materials scienceHeat transferFinThermal conductionThermalTube (container)Electrical conductorEnhanced heat transferHeat transfer enhancementYield (engineering)Thermal energy storageAbsorption (acoustics)HoneycombMechanicsThermodynamicsEnergy storageConvectionThermal energyComposite materialHexagonal crystal systemThermal conductivityConvective heat transferOrientation (vector space)Internal heatingFraction (chemistry)Mechanical engineeringNatural convectionSeries (stratigraphy)Working fluidForced convectionNuclear engineeringHeat exchangerDevelopment (topology)Heat sinkComputer data storageHeat transfer coefficientPhase Change Materials ResearchAdsorption and Cooling SystemsSolar Thermal and Photovoltaic Systems
Development and performance evaluation of a honeycomb-structured shell-and-tube thermal storage system integrating a series of openings on the hexagonal cells for enhanced energy absorption/release | Litcius