Add to ORKGIn the present investigation the distribution of mean velocity, static pressure and total pressure are experimentally studied on a C-shape diffuser of 45 ° angle of turn with an area ratio of 1.298 and centerline length was chosen as three times of inlet diameter. The experimental results then were numerically validated with the help of Fluent and then a series of parametric investigations are conducted with same centre line length and inlet diameter but with different area ratios varying from 1.25 to 3.75. The measurements were taken at Reynolds number 2.45 x 105 based on inlet diameter and mass average inlet velocity. Predicted results of coefficient of mass averaged static pressure recovery (52%) and coefficient of mass averaged total pr...
The primary goal of the project was to gain insight into the flow pattern in a mixed flow pump diffu...
The present work aims to numerically investigate the effect of varying turning angle, ø = 30° - 18...
Dr. Basharat Salim Associate Professor (Basharat@ksu.edu.sa ) Department of Mechanical Engineering C...
In the present investigation the distribution of mean velocity, static pressure and total pressure a...
Abstract-- In the present investigation the distribution of mean velocity, static pressure and total...
Curved diffusers are an integral component of the gas turbine engines of high-speed aircraft. These ...
In the present paper an extensive study of rectangular cross-sectioned C-duct and C-diffuser is made...
317-325The flow and performance characteristics of a S-shaped diffusing duct having an area ratio of...
This study presents numerical investigation on the performance of S-shaped air intake normal and agg...
This paper presents measurements and predictions of the pressure-loss coefficient for a wide-angle, ...
This study refers to an experimental analysis on swirling flow in some shapes of bent diffuser ducts...
Abstract: The present study involves the CFD analysis for the prediction of swirl effect on the char...
Investigations carried out on divided intake ducts with 22.5°/22.5° angle-of-turn to establish the e...
The performances of turning diffuser are highly affected due to the nature of its geometries by the ...
This paper describes the influence of the diffuser diameter ratio on the flow and the local loss mec...
The primary goal of the project was to gain insight into the flow pattern in a mixed flow pump diffu...
The present work aims to numerically investigate the effect of varying turning angle, ø = 30° - 18...
Dr. Basharat Salim Associate Professor (Basharat@ksu.edu.sa ) Department of Mechanical Engineering C...
In the present investigation the distribution of mean velocity, static pressure and total pressure a...
Abstract-- In the present investigation the distribution of mean velocity, static pressure and total...
Curved diffusers are an integral component of the gas turbine engines of high-speed aircraft. These ...
In the present paper an extensive study of rectangular cross-sectioned C-duct and C-diffuser is made...
317-325The flow and performance characteristics of a S-shaped diffusing duct having an area ratio of...
This study presents numerical investigation on the performance of S-shaped air intake normal and agg...
This paper presents measurements and predictions of the pressure-loss coefficient for a wide-angle, ...
This study refers to an experimental analysis on swirling flow in some shapes of bent diffuser ducts...
Abstract: The present study involves the CFD analysis for the prediction of swirl effect on the char...
Investigations carried out on divided intake ducts with 22.5°/22.5° angle-of-turn to establish the e...
The performances of turning diffuser are highly affected due to the nature of its geometries by the ...
This paper describes the influence of the diffuser diameter ratio on the flow and the local loss mec...
The primary goal of the project was to gain insight into the flow pattern in a mixed flow pump diffu...
The present work aims to numerically investigate the effect of varying turning angle, ø = 30° - 18...
Dr. Basharat Salim Associate Professor (Basharat@ksu.edu.sa ) Department of Mechanical Engineering C...