Comparative study on AL 2 O 3 nanoparticle addition on cool storage system performance
Applied Thermal Engineering • 2015
معلومات البحث
المؤلفون
Ahmed AA Attia, Ahmed A Altohamy, MF Abd Rabbo, RY Sakr
الكلمات المفتاحية
Cool thermal storage
PCM
Nanoparticle
Solidification
HTF
المجلة العلمية
Applied Thermal Engineering
الناشر
Pergamon
المجلد
94
العدد
Not Available
الصفحات
449-457
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Adding nanoparticles almost enhance the thermal transport properties in thermal storage system.
Nanoparticles could be used in two manners, the first one with Phase Change Material (PCM) as a nucleation
agent to help the fast formation of crystals in solidification process. The second manner with Heat
Transfer Fluid (HTF) to enhance the rate of heat transfer through the heat transfer process. In the present
study a comparison between adding Al2O3 nanoparticles to either distilled water as PCM, and to aqua
ethylene glycol solution of 50% wt as a HTF on the performance of cool storage system.
A spherical capsule with 85% filling of its internal volume with PCM is used as a tested platform. A
set of experiments to study the effect of adding Al2O3 nanoparticles to HTF at different volume fraction
concentrations up to 1% for different HTF inlet temperature and volume flow rates on the solidified mass
fraction, surface heat flux and complete solidification time, was performed. Comparing the present results
with those for nanoparticles with PCM, it could be concluded that adding the nanoparticles to PCM alone
is much beneficial to cool storage system than adding it to HTF alone.
Nanoparticles could be used in two manners, the first one with Phase Change Material (PCM) as a nucleation
agent to help the fast formation of crystals in solidification process. The second manner with Heat
Transfer Fluid (HTF) to enhance the rate of heat transfer through the heat transfer process. In the present
study a comparison between adding Al2O3 nanoparticles to either distilled water as PCM, and to aqua
ethylene glycol solution of 50% wt as a HTF on the performance of cool storage system.
A spherical capsule with 85% filling of its internal volume with PCM is used as a tested platform. A
set of experiments to study the effect of adding Al2O3 nanoparticles to HTF at different volume fraction
concentrations up to 1% for different HTF inlet temperature and volume flow rates on the solidified mass
fraction, surface heat flux and complete solidification time, was performed. Comparing the present results
with those for nanoparticles with PCM, it could be concluded that adding the nanoparticles to PCM alone
is much beneficial to cool storage system than adding it to HTF alone.
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