The experimental results indicate that TESA can be applied to wall-plastering cement mortar, reducing energy consumption by decreasing the indoor temperature and
Expanded titanium-bearing blast furnace slag phase change aggregate: Preparation, performance and phase change energy storage mortar application 2024, Journal
Abstract In this study, cement-based thermal energy storage composites (TESC) were developed by integrating a novel phase change material (PCM) composite into ordinary cement mortar
Download Citation | On Dec 1, 2023, Mao Ning and others published Expanded titanium-bearing blast furnace slag phase change aggregate: Preparation, performance and phase change
The application of phase change materials (PCM) in building energy saving is limited by the cost and performance of PCM carriers. Using solid waste as a PCM carrier can reduce cost and
Thermal energy storage systems with PCMs have been investigated for several building applications as they constitute a promising
In this work, phase change material (PCM) was implanted into the mortar to produce lightweight aggregate-phase change thermal insulation composites, and the
The construction industry is responsible for a significant amount of global energy consumption and CO 2 emissions. To address this issue, phase change material (PCM) is
The composite phase change energy storage thermal insulation mortar with reasonable formula had a suitable phase transition temperature of 25.6℃ and a higher phase
This study investigates the integration of Microencapsulated Phase Change Materials (MPCM) into cement mortar to enhance its thermal performance while assessing its
Abstract and Figures In this study, cement-based thermal energy storage composites (TESC) were developed by integrating a novel phase change material (PCM)
Hence, to address the above issues, this study mainly focuses to use low thermal conductive and high heat storage phase change material (PCM) in building. In order to
One of the most innovative energy technologies for increasing the sustainability and energy efficiency of buildings is the potential incorporation of phase change materials
Phase Change Materials (PCMs) are increasingly recognized in the construction industry for their ability to enhance thermal energy storage and improve building
To explore the application of phase change energy storage materials in building energy conservation, in this study, an innovative
The development of novel building materials able to improve the efficiency in energy utilization in the buildings is gaining increasing interest in
The use of thermal energy storage systems incorporating Phase Change Materials (PCM) as passive thermal regulators, in innovative buildings'' applications is an
Application of form-stable paraffin/nano-silica phase change materials for thermal energy Storage in mortar Md Rasidul Islam1, Xiangyu Li*2
The research work proposes the characterization of eutectic fatty acid mixture [Lauric and Palmitic acid (LA-PA)] centered form-stable phase change material (FSPCM)
Direct incorporation of phase change materials (PCMs) in the mortar matrix increases the effective thermal mass of a structure without increasing the size or significantly
2 天之前· By integrating phase change materials with low subcooling and high latent heat into cement mortar, a novel multifunctional brick was developed, achieving the integration of
In this study, phase change material (PCM) was encapsulated in a novel aluminium-based macro-capsule and indirectly applied to cement-based mortar to address
PCMs are well known as promising energy storage materials because they improve the energy efficiency of buildings [3]. They have a narrow temperature range during
2 天之前· By integrating phase change materials with low subcooling and high latent heat into cement mortar, a novel multifunctional brick was developed, achieving the integration of
This study presents a novel compaction molded composite of sulphoaluminate cement-based thermal energy storage mortar (SCTESM) containing shape stabilized phase
The test results show that, the composite phase change energy storage thermal insulation mortar has a good heat preservation and storage and release effect, and has an obvious improvement
In this work, the potential application of Capric-stearic acid/Expanded perlite (CA-SA/EP) thermal storage composite was prepared by vacuum impregnation method with EP as
The objective of the present work is to develop a composite PCM with expanded perlite as supporting material and expanded graphite added towards enhancement
PCMs are materials that have a larger energy storage density, unlike traditional mortar, mortar with PCM can regulate indoor temperature through phase change in response
To mitigate the growing energy consumption of the construction industry, researchers have developed thermal energy storage technology using phase-change materials
Based on long short term memory (LSTM) neural network, the machine learning-based heat storage and release prediction model was established, and the temperature
To explore the application of phase change energy storage materials in building energy conservation, in this study, an innovative composite thermal energy storage cement mortar
PDF | On Apr 20, 2023, Md Rasidul Islam and others published Application of form-stable paraffin/nano-silica phase change materials for thermal energy
In this study, cement-based thermal energy storage composites (TESC) were developed by integrating a novel phase change material (PCM) composite into ordinary
To explore the application of phase change energy storage materials in building energy conservation, in this study, an innovative composite thermal energy storage cement mortar (CTESCM) was developed using lauric acid–palmitic acid/expanded graphite (LA-PA/EG) as the composite phase change material (CPCM).
Yu et al. produced a composite phase change material to improve the freeze–thaw resistance performance of cement mortars, and the composite method and experimental results are helpful for understanding the freeze–thaw mechanism of cement mortars 40.
Phase change walls, floors, roofs, mortar, etc., all belong to phase change energy storage building structures. Incorporating PCMs into coatings to form fixed CPCMs not only beautifies and protects the appearance of buildings but also achieves the goal of regulating indoor comfort through the heat storage and release performance of PCMs.
Research by Das, R et al. mainly focused on the use of phase change material (PCM) with low thermal conductivity and high heat storage in buildings, and it was observed that adding 10% micro-encapsulated phase change material (MPCM) to mortar decreased its thermal conductivity by 22%, thereby increasing the material’s thermal insulation 38.
Li et al. developed a heat storage cement mortar (HSCM) incorporating expanded graphite (EG)/parafin CPCM. The research results showed that the heat storage coefficient of an HSCM plate is 1.74 times that of ordinary cement mortar and that it has good heat storage performance 33.
Selvasofia S. D. Anitha et al. synthesized an organic bio-nano-doped phase change material for building energy management. The results demonstrated that the inclusion of bio-nanoparticles above a 1.0% mass fraction significantly reduced the thermal storage capability of the PCM 37.
