Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
Paraffins constitute a class of solid-liquid organic phase change materials (PCMs). However,
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
A Karaipekli, A Biçer, A Sarı, VV Tyagi - Energy Conversion and …, 2017 - inis.iaea.org
[en] Highlights:• Expanded perlite/n-eicosane composite for thermal energy storage was
prepared.• Addition of CNTs increases considerably the thermal conductivity of the …
prepared.• Addition of CNTs increases considerably the thermal conductivity of the …
[引用][C] Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
A Karaipekli, A Biçer, A Sarı, VV Tyagi - Energy Conversion and …, 2017 - cir.nii.ac.jp
Thermal characteristics of expanded perlite/paraffin composite phase change material with
enhanced thermal conductivity using carbon nanotubes | CiNii Research CiNii 国立情報学 …
enhanced thermal conductivity using carbon nanotubes | CiNii Research CiNii 国立情報学 …
[PDF][PDF] Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
A Karaipekli, A Biçerb, A Sarı, VV Tyagi - Energy Conversion and …, 2017 - academia.edu
abstract Paraffins constitute a class of solid-liquid organic phase change materials (PCMs).
However, low thermal conductivity limits their feasibility in thermal energy storage (TES) …
However, low thermal conductivity limits their feasibility in thermal energy storage (TES) …
Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
ALİ KARAİPEKLİ, A BİÇER, A SARI… - ENERGY CONVERSION …, 2017 - avesis.ktu.edu.tr
Paraffins constitute a class of solid-liquid organic phase change materials (PCMs). However,
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
A Karaipekli, A Biçer, A Sarı, VV Tyagi - Energy Conversion and …, 2017 - infona.pl
Paraffins constitute a class of solid-liquid organic phase change materials (PCMs). However,
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
A Karaipekli, A Bicer, A Sari, VV Tyagi - Energy Conversion and …, 2017 - hero.epa.gov
Paraffins constitute a class of solid-liquid organic phase change materials (PCMs). However,
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
Thermal characteristics of expanded perlite/paraffin composite phase change material with enhanced thermal conductivity using carbon nanotubes
A Karaipekli, A Biçer, A Sarı… - Energy Conversion and …, 2017 - ui.adsabs.harvard.edu
Paraffins constitute a class of solid-liquid organic phase change materials (PCMs). However,
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …
low thermal conductivity limits their feasibility in thermal energy storage (TES) applications …