Journal of Fluids Engineering
Overview
The Journal of Fluids Engineering is a scholarly publication dedicated to advancing the understanding and application of fluid mechanics. It covers a wide range of topics including fluid dynamics, flow control, multiphase flows, and fluid-structure interactions. With rigorous peer-review and high-quality research articles, this journal serves as a valuable resource for researchers, engineers, and academics in the field of fluid engineering.
Details
Details
Abbr.
J Fluids Eng
Publisher
American Society of Mechanical Engineers
Start
1973
End
Continuing
Frequency
Bimonthly, 2003-
p-ISSN
0098-2202
e-ISSN
1528-901X
Country
United States
Language
English
Metrics
Metrics
h-index / Ranks: 2271
119
SJR / Ranks: 8304
543
CiteScore / Ranks: 6529
4.10
JIF / Ranks: 5186
2.0
Recent Articles
1.
Palakurthi N, Ghia U, Turkevich L
J Fluids Eng
. 2022 Jun;
144(6).
PMID: 35673360
Understanding particle detachment from surfaces is necessary to better characterize dust generation and entrainment. Previous work has studied the detachment of particles from flat surfaces. The present work generalizes this...
2.
Ma J, Gnanaskandan A, Hsiao C, Chahine G
J Fluids Eng
. 2021 Aug;
143(8):081105.
PMID: 34334842
Microbubble enhanced high intensity focused ultrasound (HIFU) is of great interest to tissue ablation for tumor treatment such as in liver and brain cancers. To accurately characterize the acoustic and...
3.
Abraham J, Sparrow E, Gorman J, Zhao Y, Minkowycz W
J Fluids Eng
. 2021 Jan;
141(7):0712041-712048.
PMID: 33437104
A turbulent transition model has been applied to fluid flow problems that can be laminar, turbulent, transitional, or any combination. The model is based on a single additional transport equation...
4.
Lin Z, Yin D, Tao J, Li Y, Sun J, Zhu Z
J Fluids Eng
. 2020 Sep;
142(11):111202.
PMID: 32981985
In this study, computational fluid dynamics (cfd) software and detached eddy simulation turbulence model were used to simulate butterfly valves with different designs. The effects of shaft diameters on the...
5.
Panicker N, Passalacqua A, Fox R
J Fluids Eng
. 2020 Sep;
142(10):101402.
PMID: 32981984
A numerical investigation is performed on buoyancy-driven homogeneous and heterogeneous bubbly flows to compare the bulk gas-liquid heat transfer effectiveness for Prandtl (Pr) numbers 0.2-20 and void fractions 0.3-0.5. For...
6.
Singh J, Wang Y, Zhang Y, Melbye J, Brooks A, Brooks B
J Fluids Eng
. 2020 Jul;
142(9):091401.
PMID: 32713985
Return bends are frequently encountered in microfluidic systems. In this study, a three-dimensional spectral boundary element method for interfacial dynamics in Stokes flow has been adopted to investigate the dynamics...
7.
Chhabra S, Prasad A
J Fluids Eng
. 2020 Apr;
133(7):071001.
PMID: 32327863
The human lung comprises about 300 million alveoli which are located on bronchioles between the 17th to 24th generations of the acinar tree, with a progressively higher population density in...
8.
Li C, Dong H, Zhao K
J Fluids Eng
. 2020 Apr;
142(3):030902.
PMID: 32280150
Insects can detect and locate distant odor sources (food, mate, etc.) by tracking odor plumes, which is key to their survival. During an odor-guided navigation, flapping wings have been speculated...
9.
Poroseva S
J Fluids Eng
. 2018 Sep;
136(6).
PMID: 30245535
It is accustomed to think that turbulence models based on solving the Reynolds-Averaged Navier-Stokes equations require empirical functions to accurately reproduce the behavior of flow characteristics of interest, particularly near...
10.
Zhang J, Wang S, Li H, Qu Z
J Fluids Eng
. 2018 Aug;
140(10):1011051-10110511.
PMID: 30083022
Wire and nonparallel plate electrode-type electrostatic air accelerators have attracted significant interest. The physical process involved in using accelerators is complicated. Moreover, mechanisms are unclear, especially for accelerators with double-...