Thermal energy storage behaviour of 3D ceramic/molten salt
Molten salts, phase change materials commonly employed in thermal energy storage (TES) systems, are widely known to enhance the eficient use and storage of solar energy in
Ceramics thermal energy storage
The field of thermal energy storage is dynamic, with new technologies well on their way. Ceramic-based TES systems represent a resilient and increasingly practical solution for high-temperature energy
Ceramics and ceramic matrix composites as solar thermal
Various types of ceramics and ceramic matrix composites had been assessed for their applicability in solar thermal receivers, such as alumina, zirconia, mullite, silicon carbide,
Microstructure and properties of forsterite-zirconia composite
In solar thermal power generation system, the thermal physical properties of heat storage materials are crucial. In order to study the thermal storage properties of forsterite -
Enhanced Mechanical and Thermal Properties of
This study addresses the environmental and resource challenges posed by the growing volume of waste electric porcelain in the power industry by developing solar absorption and thermal storage
Preparation, microstructure and properties of solar thermal
In this study, the Nano-ZrO 2 -corundum-mullite composite thermal storage ceramics were synthesized by incorporating varying amounts of Nano-ZrO 2 into a corundum-mullite ceramics
Preparation of MgAl2O4 solar thermal storage ceramics from
The effects of magnesium source and the additive on sintering properties, thermal shock resistance and thermal properties of MgAl 2 O 4 ceramics were researched.
Preparation and Thermal Shock Resistance of Mullite Ceramics
Mullite thermal storage ceramics were prepared by low-cost calcined bauxite and kaolin. The phase composition, microstructure, high temperature resistance and
Low-temperature synthesis of dense Si-based nitride ceramics for solar
Direct nitridation method was used to prepare dense Si-based ceramics for solar thermal storage, and the effect of cordierite as sintering additive on
Sintering behaviors and properties of Sialon–Al2O3 ceramics for solar
Sialon–Al2O3 ceramics for solar thermal storage were synthesized by alumino-silico/thermic nitridation of coal-series kaolin, a kind of solid waste in
In-situ synthesis of nitride whiskers-bonded SiAlON–Al2O3 ceramics
Abstract Nitride whiskers-bonded SiAlON–Al2 O 3 ceramics used for solar thermal storage were in-situ synthesized by aluminothermic nitridation of coal-series kaolin, an
Preparation, microstructure and properties of solar thermal storage
Abstract Solar thermal storage ceramics are an efficient kind of material for storing and releasing heat energy, demonstrating great potential in the field of solar thermal
Eco-friendly and large porosity wood-derived SiC ceramics for
Solar thermal energy storage based on phase change materials (PCMs) plays a significant role in overcoming the intermittent and fluctuating nature of solar irradiation.
In situ synthesis and mechanism of mullite-silicon carbide
SiC combined with mullite ceramic, which is an important thermal storage material in solar thermal power generation systems, was synthesized in situ by semidry
Preparation and thermal shock resistance of solar thermal storage
In this study, a method to prepare low-cost solar thermal storage ceramics from high calcium and high iron steel slag was proposed, followed by the analysis of its thermal
In-situ synthesis of nitride whiskers-bonded SiAlON–Al2O3 ceramics
In this study, nitride whiskers-bonded SiAlON–Al 2 O 3 ceramics for solar thermal storage were successfully prepared by aluminothermic nitridation of CSK, an abundant solid
In situ synthesis of SiC-bonded cordierite-mullite ceramics for solar
For a potential application of solar thermal energy storage, in order to improve the mechanical strength and thermal conductivity of cordierite-mullite composite ceramics, the
Preparation and Thermal Shock Resistance of Mullite Ceramics
Mullite thermal storage ceramics were prepared by low-cost calcined bauxite and kaolin. The phase composition, microstructure, high temperature resistance and
The thermal shock resistance of in-situ synthesized mullite
Abstract Solar high-temperature thermal power generation systems require thermal storage materials with excellent thermal shock resistance due to the large temperature
In-situ synthesis of nitride whiskers-bonded SiAlON–Al2O3 ceramics
Nitride whiskers-bonded SiAlON–Al2O3 ceramics used for solar thermal storage were in-situ synthesized by aluminothermic nitridation of coal-series kaolin, an abundant solid waste in China.
Effect of in situ synthesized and additives on the thermal
High-performance thermal storage ceramics can enable utilization of solar thermal power generation plants. In this work, in situ synthesis was used to prepare mullite
Preparation and Thermal Shock Resistance of Mullite Ceramics
Mullite thermal storage ceramics were prepared by low-cost calcined bauxite and kaolin. The phase composition, microstructure, high temperature resistance and
Effect of in situ synthesized and additives on the thermal
High-performance thermal storage ceramics can enable utilization of solar thermal power generation plants. In this work, in situ synthesis was used to prepare mullite
High-temperature alloy/honeycomb ceramic composite materials for solar
Abstract SiC w /Al 2 O 3 honeycomb ceramics were engaged as sensible shell materials for encapsulating Al-Si alloys (latent heat materials) in the honeycomb holes to obtain
Microstructure and properties of forsterite-zirconia composite ceramics
The composite ceramics were suitable for high-temperature environments and had excellent heat storage capacity, making them suitable for high-temperature heat storage systems. Solar
Preparation and characterization of a heat storage ceramic with
While the high thermal conductivity, latent heat storage and excellent thermal cycling performance are all important for ceramics used in heat storage, it is difficult to obtain
Effects of Sm2O3 and TiO2 on the performance of MgAl2O4-Si3N4 ceramics
Abstract Aiming to further improve the properties of novel MgAl 2 O 4 -Si 3 N 4 ceramic used as solar thermal absorbing material in concentrating solar power, effects of Sm 2
Preparation and characterization of solar absorption and thermal
Abstract Solar absorption and thermal storage integrated ceramics (SATS ceramics) are new thermal storage materials that directly absorb sunlight, which improve the
Stabilization of thermal storage ceramics via the phase
The ceramic exhibited bulk density of 3.11 ± 0.01 g/cm 3, thermal storage density of 1.51 kJ/cm 3, and thermal expansion coefficient of 3.40 × 10 −6 /°C (°C),
Microstructure and properties of forsterite-zirconia composite ceramics
Solar thermal power generation is an important direction of energy utilization, and thermal storage materials are the key to ensure the continuous use of energy. In this
Low-temperature synthesis of dense Si-based nitride ceramics for solar
Direct nitridation method was used to prepare dense Si-based ceramics for solar thermal storage, and the effect of cordierite as sintering additive on
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