Who can teach me how to find the Volume number and Issue number of “Numerical simulation of three dimensional cavitation shedding dynamics with special emphasis on cavitation–vortex interaction”?

Google it.
\
http://www.sciencedirect.com/science/article/pii/S0029801814001838

Poster is from China and doesn’t have access like we do, @elbanditoroso

@cazzie follow the link and you will see the journal name, volume and issue, which is what he asked

I know that. But what part of he’s in China don’t you get? They have limited access to the Internet. I’ve helped him out before. Seems they are blocked from most academic publications and journals.

Go to Google Scholar”
Search for the paper you’re looking for.
Click the “Cite” link under the result that links to your paper.
This will give you the complete citation in several styles, including volume and issue, if any, without going to the actual paper itself.

This assumes that Google Scholar functions in China, which I’m not sure it does. If not, and you are affiliated with a university, they probably have access to a resource like Web of Science that will provide you with citation information (as well as the paper, if your library subscribes).

No need to snipe at each other.
Just cut and paste it.

Numerical simulation of three dimensional cavitation shedding dynamics with special emphasis on cavitation–vortex interaction

Bin Jia, , Xianwu Luoa, , , Roger E.A. Arndtb, , Yulin Wua,
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http://dx.doi.org/10.1016/j.oceaneng.2014.05.005
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Highlights
•
3D cavitating turbulent structure around a twisted hydrofoil is simulated.
•
Three types of flow behavior along the hydrofoil suction side are illustrated.
•
The mechanism of cavitation–vortex interaction is discussed.
Abstract
Recent experiments showed that there is an interaction between the fluid vortex formation and cavitation, but the mechanism is still an open problem. In the present paper, the structure of the cavitating flow around a twisted hydrofoil was investigated numerically using the mass transfer cavitation model and the modified RNG k-ε model with a local density correction for turbulent eddy viscosity. The predicted three dimensional cavity structures and the shedding frequency agree fairly well with experimental observations. Three types of flow behavior along the suction side of the twisted hydrofoil are discussed. Further analysis of the flow field reveals that cavitation promotes vortex production and increases the boundary layer thickness with local separation and the flow unsteadiness. Finally, the influence of cavitation on the vorticity distribution is illustrated using the vorticity transport equation in a variable density flow and is demonstrated by the contribution of vortex stretching, vortex dilatation and baroclinic torque terms.

I’‘m waiting to hear back from the OP that they can read the link or not.

@Rarebear But the OP didn’t ask for any of the information that you cut and pasted. He asked how to find two pieces of information: the volume and issue numbers. I agree that there’s no need for sniping, though.

It’s not clear whether the OP wants to know how to find it or the information itself as s/he is a non-native English speaker.

In any case, here’s the asked for information from @elbanditorosa’s link:

Ocean Engineering
Volume 87, 1 September 2014, Pages 64–77

Cover image
Numerical simulation of three dimensional cavitation shedding dynamics with special emphasis on cavitation–vortex interaction

Bin Jia, , Xianwu Luoa, , , Roger E.A. Arndtb, , Yulin Wua,

And I agree that sniping is not necessary.

Sorry, WTF???