Nanoparticles enhanced phase change materials (NePCMs)-A recent review

Nanoparticles enhanced phase change materials (NePCMs)-A recent review

•Addition of nanoparticles, with specific volume concentration, enhanced the thermal conductivity of base PCM.•Application of NePCMs in buildings reduced the energy consumption.•Use of NePCMs enhanced the thermal management of modern electronics.•The use of NePCMs in smart textiles improved the ther...

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Bibliographic Details
Published in:Applied thermal engineering Vol. 176; p. 115305
Main Authors: Tariq, Syeda Laraib, Ali, Hafiz Muhammad, Akram, Muhammad Ammar, Janjua, Muhammad Mansoor, Ahmadlouydarab, Majid
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 25-07-2020
Elsevier BV
Subjects:
Buildings
Cold storage
Electronic cooling
Food packaging
Heat conductivity
Heat pipes
Heat storage
Heat transfer
Latent heat
Nanoparticles
NePCMs
PCMs
Phase change materials
Phase transitions
Solar thermal energy storage
Storage capacity
Studies
Sustainable development
Textiles
Thermal conductivity
Thermal energy storage systems
Thermal management
Solar thermal energy storage
Thermal energy storage systems
Buildings
Electronic cooling
Cold storage
PCMs
NePCMs
Textiles
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Summary:•Addition of nanoparticles, with specific volume concentration, enhanced the thermal conductivity of base PCM.•Application of NePCMs in buildings reduced the energy consumption.•Use of NePCMs enhanced the thermal management of modern electronics.•The use of NePCMs in smart textiles improved the thermal stability and durability. Phase change materials (PCMs) play a prime role in the development of sustainable energy and engineering systems for viable future, with their remarkable phase change properties. The heat energy absorbed and released by PCMs, over a specific temperature range, has become a prominent contender in many engineering applications that encompass thermal, solar, electronic, battery thermal management, textiles, heat pipes and food packaging. Apart from having high latent heat storage capacity, PCMs possess low thermal conductivity, which requires nanoparticles to be incorporated. Effectiveness of thermal conductivity of PCM can be increased by adding nanoparticles and resulting material is known as Nanoparticle-enhanced PCM (NePCM). This paper presents the comprehensive review on the preparation techniques as well as the applications of NePCMs in various fields. It is expected that this review will intend readers to provide some insight to explore the further applications and essential properties of NePCMs.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2020.115305