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Thermal degradation studies and hybrid neural network modelling of eutectic phase change material composites

K.R. Balasubramanian, Ravi Kumar Kottala, Sathiya Prabhakaran S.P., B S Jinshah, Nalluri Abhishek

2022International Journal of Energy Research21 citationsDOI

Abstract

Using a thermogravimetric analyzer, the thermal stability of pure eutectic phase change material (PEPCM) (LiNO3 + NaCl) and composite eutectic PCM (CEPCM) mixture (ie, PCM containing 9% expanded graphite [EG]) was examined. PEPCM and CEPCM degradation kinetics were studied using model free kinetics methods. The activation energy of both PCM samples was evaluated using the Kissinger-Akahira-Sunose (KAS), Flynn-Wall-Ozawa (FWO), Starink, Friedman and Vyazovkin kinetic models. The calculated activation energies for Vyazovkin, Frideman, Ozawa, KAS and Starink techniques for PEPCM were 80.62-149.2, 108.1-180.18, 83.74-136.17, 73.55-127.02 and 74.64-149.9 kJ/mol, respectively. Likewise, the activation energy of CEPCM vary between 59.4-161.41, 83.97-188.69, 57.1-147.32, 54.19-137.43 and 55-160.65 kJ/mol. Hybrid neural networks such as ANN-PSO and ANFIS were used to model the degradation of PCM samples. The type of PCM, the heating rate, and the temperature were applied as input parameters, while the sample's mass loss was utilized as an output parameter. The created hybrid models are capable of effectively predicting experimental TGA data.

Topics & Concepts

Thermogravimetric analysisEutectic systemActivation energyComposite numberMaterials scienceDegradation (telecommunications)KineticsThermal stabilityComposite materialPhase (matter)ThermalChemical engineeringThermodynamicsChemistryComputer scienceMicrostructurePhysical chemistryPhysicsTelecommunicationsQuantum mechanicsOrganic chemistryEngineeringThermal and Kinetic AnalysisThermochemical Biomass Conversion ProcessesPhase Change Materials Research
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