Thermal and hydraulic numerical study for a novel multi tubes in tube helically coiled heat exchangers: Effects of operating/geometric parameters
International Journal of Thermal Sciences, Volume 128, (2018) 70-83 • 2018
معلومات البحث
المؤلفون
H.F. Elattar, A. Fouda, S.A. Nada, H. A. Refaey, A. Al-Zahrani
الكلمات المفتاحية
Helical coil
Multi tubes in tube
Heat exchanger
CFD simulation
Thermal-hydraulic performance
المجلة العلمية
International Journal of Thermal Sciences, Volume 128, (2018) 70-83
الناشر
www.ScienceDirect.com/ Elsevier Masson SAS
المجلد
128
العدد
Not Available
الصفحات
70-83
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
Compactness with high performance heat exchangers are main challenges in a lot of engineering applications.
Thus, this research reports CFD simulation of a novel MTTHC (multi tubes in tube helically coiled) heat exchanger
using ANSYS-FLUENT 14.5. The aim of the work is to investigate the thermal and hydraulic performance
of the MTTHC for turbulent flow. The effects of the operating and geometrical parameters of the coil on
the cold/hot water Nusselt numbers, heat transfer coefficients, pumping power, effectiveness, and thermalhydraulic
index are studied and presented. The results show that, the largest heat transfer coefficient is found at
N=3 and β = 0° & 90°, and the pumping power (P) rises with ≅20 times if N changed from 1 to 5 at any β.
Moreover, the effectiveness of the coil (ε) has the largest values at β = 0° & 90° and N=3, and it enhances with
8.5%, 9% and 7% if N increased from 1 to 3 at β=0°, 45° and 90°, respectively. In addition, thermal-hydraulic
index (ξ) improves with 5%, 8% and 6% if N increased from 1, to 3 at β=0°, 45° and 90°, respectively. Finally,
Numerical correlations for P, ε and ξ are correlated and presented within reasonable errors.
Thus, this research reports CFD simulation of a novel MTTHC (multi tubes in tube helically coiled) heat exchanger
using ANSYS-FLUENT 14.5. The aim of the work is to investigate the thermal and hydraulic performance
of the MTTHC for turbulent flow. The effects of the operating and geometrical parameters of the coil on
the cold/hot water Nusselt numbers, heat transfer coefficients, pumping power, effectiveness, and thermalhydraulic
index are studied and presented. The results show that, the largest heat transfer coefficient is found at
N=3 and β = 0° & 90°, and the pumping power (P) rises with ≅20 times if N changed from 1 to 5 at any β.
Moreover, the effectiveness of the coil (ε) has the largest values at β = 0° & 90° and N=3, and it enhances with
8.5%, 9% and 7% if N increased from 1 to 3 at β=0°, 45° and 90°, respectively. In addition, thermal-hydraulic
index (ξ) improves with 5%, 8% and 6% if N increased from 1, to 3 at β=0°, 45° and 90°, respectively. Finally,
Numerical correlations for P, ε and ξ are correlated and presented within reasonable errors.
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