Add to ORKGThis report contains the results from the simulations done in STAR-CCM+ to predict pipe losses, including a validation case with straight smooth/rough pipes, and smooth pipes with 90 degree bends. Results show excellent validation of predicting the major loss coefficient of smooth/rough pipes with a percentage of error below 0.7. The results are compared with previous research papers and ultimately led to an equation, making the Reynolds number a parameter when calculating the minor loss coefficient for pipe bends
The non-Newtonian fluid flow in a sharp 90 curved pipe is studied numerically to obtain the pressure...
Application of CFD Fluent model to determine the hydraulic losses in the circular pipe with fi ber o...
ABSTRACT The impact of flow rate Q on the head loss hL in pipes and fittings was studied on differen...
In order to transport the fluid effectively without suffering much energy loss it becomes very impor...
Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2017.Space limitat...
© 2015 Wiley Periodicals, Inc. This work reports the outcomes of a senior undergraduate project done...
Manifold arrangements with bifurcations/trifurcations lead to head losses in a fluid system. It is n...
There are many processes in industry where a fluid has to be transported through pipelines. Maintena...
In the Introduction to this thesis the steady flow of Newtonian fluids in duct systems is discussed,...
As water moves through pipes, it loses energy. The energy losses are due to friction and the minor l...
The modernization of computer technology and commercial computational fluid dynamic (CFD) simulation...
Major solid particle erosion may lead to potential failure of upstream oil and gas producing wells. ...
A knowledge of hydraulic losses and secondary flows caused by elbows in a pipe line is of great impo...
A knowledge of hydraulic losses and secondary flows caused by elbows in a pipe line is of great impo...
Pressure drops in a piping elbow are experimentally determined for high Reynolds number flows. The t...
The non-Newtonian fluid flow in a sharp 90 curved pipe is studied numerically to obtain the pressure...
Application of CFD Fluent model to determine the hydraulic losses in the circular pipe with fi ber o...
ABSTRACT The impact of flow rate Q on the head loss hL in pipes and fittings was studied on differen...
In order to transport the fluid effectively without suffering much energy loss it becomes very impor...
Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2017.Space limitat...
© 2015 Wiley Periodicals, Inc. This work reports the outcomes of a senior undergraduate project done...
Manifold arrangements with bifurcations/trifurcations lead to head losses in a fluid system. It is n...
There are many processes in industry where a fluid has to be transported through pipelines. Maintena...
In the Introduction to this thesis the steady flow of Newtonian fluids in duct systems is discussed,...
As water moves through pipes, it loses energy. The energy losses are due to friction and the minor l...
The modernization of computer technology and commercial computational fluid dynamic (CFD) simulation...
Major solid particle erosion may lead to potential failure of upstream oil and gas producing wells. ...
A knowledge of hydraulic losses and secondary flows caused by elbows in a pipe line is of great impo...
A knowledge of hydraulic losses and secondary flows caused by elbows in a pipe line is of great impo...
Pressure drops in a piping elbow are experimentally determined for high Reynolds number flows. The t...
The non-Newtonian fluid flow in a sharp 90 curved pipe is studied numerically to obtain the pressure...
Application of CFD Fluent model to determine the hydraulic losses in the circular pipe with fi ber o...
ABSTRACT The impact of flow rate Q on the head loss hL in pipes and fittings was studied on differen...