An investigation in to heat transfer and flow of nanofluidsin circular tube

مقدم أطروحة جامعية

Faysal, Khalid

مشرف أطروحة جامعية

Karam Allah, Abd al-Hasan A.
Habib, Sattar Jabir

الجامعة

الجامعة التكنولوجية

الكلية

-

القسم الأكاديمي

قسم الهندسة الميكانيكية

دولة الجامعة

العراق

الدرجة العلمية

دكتوراه

تاريخ الدرجة العلمية

2012

الملخص الإنجليزي

The theoretical and experimental study was conducted to investigate the heat transfer and flow ofnanofluids through a horizontal and an inclined circular tube heated by an axial uniform heat flux.

This study was done in thermally and hydrodynamicallyfully developed region with laminar flow.

Three types of nanofluids are used through this work,Al (25nm) – distilled water, Al2O3 (30nm) – distilled water and CuO (50nm) – distilled water.

The theoretical study includes the construction of the single phase model from the governing equations of heat transfer andflow througha horizontal and an inclined tube from the basic governing equations (continuity, energy and the momentum equations in the polar three – dimensionalcoordinate).Thegoverning equationsare transformed to a dimensionless formula include volume fraction,Prandtl number, Reynolds number and Rayleigh number.Theseequations were numerically solved by the finite difference methods using the alternating direction implicit method (ADI) and Gauss elimination technique.

The results based on the fact that the secondary flow created by natural convection has significant effects on the heat transfer process, reveal an increase in the Nussult number values as the heat flux increases and as the angle of inclination moves from the vertical to the horizontal position.The results showed that, the average rateof the heat transfer increases significantly with increases of the particle volume fraction and Rayleigh number.

Also, the type of nanofluid is a key factor for the heat transfer enhancement, where the high values are obtained when using Al, Al2O3, and CuOnanoparticles, respectively.

The experimental study includes constructionof experimental test rig which consists of Pyrex tubes of 4 mm diameter.

Itis fixed horizontally and heated by tungsten wire and supplied with tank for collection the nanofluid,pump, pressure gauges, flow meter and thermocouples.

The range of Reynolds number are chosen (100 – 900), heat flux ranging between (588– 7910W/m2) which cover a wide rangeof Rayleigh number between (1×103– 4×106)and concentrations from (0.25–2.5 vol %).

The pressure drop, wall temperature, flow rate, heat flux and temperature of nanofluids flowing through a uniform heated circular tube in the fully developed laminar flow regime were measured.Moreover the properties of the nanofluid,density, viscosity, specific heat and thermal conductivity were measured practically.Thevalues of Nusselt number ratio (NuR) were evaluated to be (45%, 31%, 25% ) for the three nanofluids(Al, Al2O3,CuO) – distilled water respectively, with the uniform heat flux and (36%, 27%, 22%)constant wall temperature.

It should be noted that the enhancement of heat transfer greatly depend on volume fraction, nanoparticles type, nanoparticles size, flow regime.

Nanofluidsthat contain metal nanoparticles shows more enhancement than oxide nanofluids.

Correlation for average Nusselt number with Rayleigh number and nanofluid concentration were obtained for each type of the used nanofluid.

General correlation were also obtained for the three types of nanofluids.

Thecomparison of the present numerical and experimental results with the works of other researchers is done,and show good agreement.

The difference between theoretical and experimental results in the present work is ±9 % for average Nusselt number.

التخصصات الرئيسية

الهندسة الميكانيكية

• APA
• MLA
• AMA

لغة النص

الإنجليزية

نوع البيانات

رسائل جامعية

رقم السجل

BIM-419825