Authors :
Eugenie Geraldine Ngah Abena; Donatien Njomo
Volume/Issue :
Volume 8 - 2023, Issue 4 - April
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://bit.ly/42UkJt9
DOI :
https://doi.org/10.5281/zenodo.7911886
Abstract :
A mixed convection heat transfer in an
horizontal tube with uniform wall heat flux is explored
in this works. Both the viscous dissipation and the
buoyancy effect have been taken into account. The
momentum balance equation and the energy balance
equation have been derived and solved. These solution
have been apply in the case of horizontal well ≪
BTMO40H ≫ of the oil fluids production at the Rio Del
Rey region in South West Cameroon. The effect of the
temperature, velocity distribution and pressure gradient
on the debit of production have thus been derived and
analyzed according to the physical configuration of the
well in other to increase the rate of production.
Keywords :
Convection, Horizontal Tube, Temperature, Velocity, Pressure Gradient.
A mixed convection heat transfer in an
horizontal tube with uniform wall heat flux is explored
in this works. Both the viscous dissipation and the
buoyancy effect have been taken into account. The
momentum balance equation and the energy balance
equation have been derived and solved. These solution
have been apply in the case of horizontal well ≪
BTMO40H ≫ of the oil fluids production at the Rio Del
Rey region in South West Cameroon. The effect of the
temperature, velocity distribution and pressure gradient
on the debit of production have thus been derived and
analyzed according to the physical configuration of the
well in other to increase the rate of production.
Keywords :
Convection, Horizontal Tube, Temperature, Velocity, Pressure Gradient.