Heat transfer enhancement during freezing process of Nano Phase Change Material (NPCM) in a spherical capsule
Applied Thermal Engineering • 2017
معلومات البحث
المؤلفون
R.Y. Sakr, Ahmed A.A. Attia ⇑, Ahmed A. Altohamy, Ismail M.M. Elsemary, M.F. Abd Rabbo
الكلمات المفتاحية
Cool thermal storage
PCM
Nanoparticle
Solidification
HTF
المجلة العلمية
Applied Thermal Engineering
الناشر
ELSEVIER
المجلد
125 (2017)
العدد
Not Available
الصفحات
1555–1564
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
An investigation on performance of Nano Phase Change Material (NPCM) (water as PCM and 50 nm Al2O3)
in a spherical capsule is carried out. Both the inlet temperature and volume flow rate of heat transfer fluid
(HTF) (Aqua-ethylene glycol solution is used as a HTF) are varied to maintain the capsule wall temperature
constant at a temperature range from 4 C to 10 C respectively. The volume fraction concentration
of the nanoparticles in the used PCM in the experiment ranges from 0.5% to 2%. The results is
presented in the form of relations between the solidified mass fraction, percentage of thermal energy
storage and the average Nusselt number versus an appropriate combination of Fourier, Stefan, and
Rayleigh numbers as well as the volume fraction of nanoparticles. The dimensional analysis that is presented
here results a number of useful empirical correlations that can be used in practice.
in a spherical capsule is carried out. Both the inlet temperature and volume flow rate of heat transfer fluid
(HTF) (Aqua-ethylene glycol solution is used as a HTF) are varied to maintain the capsule wall temperature
constant at a temperature range from 4 C to 10 C respectively. The volume fraction concentration
of the nanoparticles in the used PCM in the experiment ranges from 0.5% to 2%. The results is
presented in the form of relations between the solidified mass fraction, percentage of thermal energy
storage and the average Nusselt number versus an appropriate combination of Fourier, Stefan, and
Rayleigh numbers as well as the volume fraction of nanoparticles. The dimensional analysis that is presented
here results a number of useful empirical correlations that can be used in practice.
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