@inproceedings{10f867823faf414a92bc1cf7cc5a53ad,
title = "Flow Field of XCP Probe's head and optimization choice of structural parameters",
abstract = "In this study, numerical simulation of XCP probe was executed. The 3D Navier-Stokes equations were used as governing equations, and the finite volume method combining twoequations k -ε turbulence model was applied. The flow field of XCP Probe was analyzed, especially around the XCP Probe's head. The results show that the arc design of the XCP Probe's head plays an important role on the steady falling speed. In addition, when the radian is 27°, the resistance of the probe is smallest and a larger falling speed can be achieved; The electrodes of probe should be located in front end of a conduit which is in the middle of the probe.",
keywords = "Electrode, Falling speed, The are design, XCP probe",
author = "He, {Hong Kun} and Yang, {Shuang Qi} and Li, {Guang Yu} and Gao, {Hong Min}",
year = "2013",
doi = "10.4028/www.scientific.net/AMR.760-762.1753",
language = "English",
isbn = "9783037857731",
series = "Advanced Materials Research",
pages = "1753--1757",
booktitle = "Optoelectronics Engineering and Information Technologies in Industry",
note = "2nd International Conference on Opto-Electronics Engineering and Materials Research, OEMR 2013 ; Conference date: 19-10-2013 Through 20-10-2013",
}