Add to ORKGTurbulent forced convection of different nanofluids consisting of -Al2O3/water and CuO/water in a concentric double tube heat exchanger has been investigated numerically using two-phase approach. Nanofluids that are used as coolants flowing in the inner tube while hot pure water flows in outer tube. The study was conducted for Reynolds numbers ranging from 20,000 to 50,000 and nanoparticles volume fractions of 2, 3, 4 and 6 percent. The three-dimensional governing equations are discretized using the finite volume approach. Although, two different nanoparticles have almost the same thermal conductivity but using CuO/water nanofluid showing better enhancement in heat transfer that proves thermal conductivity is not the only reason of enhancin...
Both surface extension and nanofluid methods were used to enhance the heat transfer in a double pipe...
In this paper, water and CuO-water nanofluids are selected as working fluids. The characteristics of...
Application of nanofluids in heat transfer enhancements is prospective. They are well-suited to heat...
Forced convective heat transfer and wall characteristics of nanofluid flow containing Al2O3 nanopart...
Turbulent heat transfer to separation nanofluid flow in annular concentric pipe has been studied num...
Heat Exchanger are among those engineered designs in which is widely used among many industries. Thu...
Heat transfer enhancement of nanofluids under turbulent flow through a straight square channel under...
The need for high thermal performance thermal systems has been eventuated by finding different ways ...
Purpose – The purpose of the present study is to numerically investigate the characteristics of lami...
Because of extraordinary heat transfer capability, nanofluids have become a potential interest in ...
On account of nanofluids influence on heat exchangers (HEs), a vigorous discussion can be made to co...
Nanotechnology is a promising field in sustainable energy to reduce the energy consumption for optim...
Turbulent heat transfer to separation nanofluid flow in annular concentric pipe were studied numeric...
Nanofluid is a new class of heat transfer fluids engineered by dispersing metallic or non-metallic n...
In this paper, numerical simulation of laminar flow and heat transfer of nanofluid on a group of hea...
Both surface extension and nanofluid methods were used to enhance the heat transfer in a double pipe...
In this paper, water and CuO-water nanofluids are selected as working fluids. The characteristics of...
Application of nanofluids in heat transfer enhancements is prospective. They are well-suited to heat...
Forced convective heat transfer and wall characteristics of nanofluid flow containing Al2O3 nanopart...
Turbulent heat transfer to separation nanofluid flow in annular concentric pipe has been studied num...
Heat Exchanger are among those engineered designs in which is widely used among many industries. Thu...
Heat transfer enhancement of nanofluids under turbulent flow through a straight square channel under...
The need for high thermal performance thermal systems has been eventuated by finding different ways ...
Purpose – The purpose of the present study is to numerically investigate the characteristics of lami...
Because of extraordinary heat transfer capability, nanofluids have become a potential interest in ...
On account of nanofluids influence on heat exchangers (HEs), a vigorous discussion can be made to co...
Nanotechnology is a promising field in sustainable energy to reduce the energy consumption for optim...
Turbulent heat transfer to separation nanofluid flow in annular concentric pipe were studied numeric...
Nanofluid is a new class of heat transfer fluids engineered by dispersing metallic or non-metallic n...
In this paper, numerical simulation of laminar flow and heat transfer of nanofluid on a group of hea...
Both surface extension and nanofluid methods were used to enhance the heat transfer in a double pipe...
In this paper, water and CuO-water nanofluids are selected as working fluids. The characteristics of...
Application of nanofluids in heat transfer enhancements is prospective. They are well-suited to heat...