Litcius/Paper detail

Effect of ratio of desulfurization gypsum to carbide slag on low-carbon phase change composites for energy storage

Xiong Yaxuan, Shuo Li, Ren Jing, Aitonglu Zhang, Qian Xu, Yuting Wu, Zhao Yanqi, Ding Yulong

2024Journal of Energy Storage12 citationsDOIOpen Access PDF

Abstract

To recycle industrial wastes sufficiently, this work innovatively proposed a mixture of desulfurization gypsum and carbide slag as skeleton material to fabricate phase-change composites with NaNO 3 as phase change material in a mass ratio of 5 to 5. Four phase-change composites were fabricated with different ratio of desulfurization gypsum to carbide slag by the cold compression-hot sintering method, and then key thermal and mechanical properties, microscopic morphology and chemical compatibility between components were investigated in detail. Results show that the mixture of desulfurization gypsum and carbide slag as skeleton material is feasible and reliable and an optimal mass ratio of desulfurization gypsum to carbide slag was obtained to be 3.5 to 1.5; the phase-change composite with the optimal mass ratio possesses good mechanical strength of up to 134.116 MPa and an energy storage capacity of 483.151 J/g in the range of 100 to 400 °C, as well as excellent thermal stability and chemical compatibility between components, inside which the NaNO 3 is well encapsulated. Moreover, the phase-change composites fabricated in this work have far low energy consumption and carbon dioxide emission.

Topics & Concepts

Flue-gas desulfurizationGypsumMaterials scienceSlag (welding)Carbon fibersCarbidePhase changePhase (matter)Energy storageComposite materialMetallurgyWaste managementComposite numberChemistryEngineeringEngineering physicsPhysicsOrganic chemistryPower (physics)Quantum mechanicsPhase Change Materials ResearchRadiative Heat Transfer StudiesSolar Thermal and Photovoltaic Systems