Simulation of Boundary Layers and Heat Transfer in the Entrance Region of Pipes
Shah, Srujal P. (2007)
Diplomityö
Shah, Srujal P.
2007
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe20071946
https://urn.fi/URN:NBN:fi-fe20071946
Tiivistelmä
The study of fluid flow in pipes is one of the main topic of interest for engineers in industries. In this thesis, an effort is made to study the boundary layers formed near the wall of the pipe and how it behaves as a resistance to heat transfer. Before few decades, the scientists used to derive the analytical and empirical results by hand as there were limited means available to solve the complex fluid flow phenomena. Due to the increase in technology, now it has been practically possible to understand and analyze the actual fluid flow in any type of geometry.
Several methodologies have been used in the past to analyze the boundary layer equations and to derive the expression for heat transfer. An integral relation approach is used for the analytical solution of the boundary layer equations and is compared with the FLUENT simulations for the laminar case. Law of the wall approach is used to derive the empirical correlation between dimensionless numbers and is then compared with the results from FLUENT for the turbulent case.
In this thesis, different approaches like analytical, empirical and numerical are compared for the same set of fluid flow equations.
Several methodologies have been used in the past to analyze the boundary layer equations and to derive the expression for heat transfer. An integral relation approach is used for the analytical solution of the boundary layer equations and is compared with the FLUENT simulations for the laminar case. Law of the wall approach is used to derive the empirical correlation between dimensionless numbers and is then compared with the results from FLUENT for the turbulent case.
In this thesis, different approaches like analytical, empirical and numerical are compared for the same set of fluid flow equations.