Research on Sparking and Simulation Technique

Long Yan; Quan Xi Zou; Chuan Qi Wang

doi:10.4028/www.scientific.net/AMR.694-697.2997

Paper Titles

Tower Equipment Lifting Crane and Tools Selection and Optimization
p.2978

Design and Research of YGD450 Cut Tobacco Filling Value Tester
p.2983

A Directional Rapid Search Method in PDSR Based on the Fitting Method
p.2989

A Rapid Method to Calculate the Hyper-Plane of DSR Based on EEAC
p.2993

Research on Sparking and Simulation Technique
p.2997

Research of Gait Analysis Method Based on Motion Capture and LifeMOD
p.3001

An Integrated Study on Engineering of Replacing Gas-Discharge Source with Solid Electric Light Source Based on the Design Standard of Architectural Lighting
p.3006

LED Street Lamp Module Configuration Design
p.3012

Optimization and Application for Direct Air-Cooled Condenser Automatic Cleaning Device
p.3016

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 694-697Research on Sparking and Simulation Technique

Research on Sparking and Simulation Technique

Abstract:

The article analyzed electrical discharge path in the air. The model was simplified and the path was approximated by line segments. Discharge path was calculated in iteration method. Single trunk and multiple branches were simulated separately. Experiment result presented high similarity with the shape of real electrical spark. Dynamic computation would take some load to processer, several important parameters were provided for realization.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 694-697)

Pages:

2997-3000

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.694-697.2997

Citation:

Cite this paper

Online since:

May 2013

Authors:

Long Yan, Quan Xi Zou, Chuan Qi Wang

Keywords:

2D Path, 3D Path, Electrical Discharge, Electrical Sparking Path

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Li Weiqing, Wu Huizhong, and Lin Cangnian. Research on Virtual Environment of Substation Trainning Simulator. Journal of System Simulation, Vol 18.(2006), pp.123-126

Google Scholar

[2] T, R. and W. B. Visual Simulation Lightning. in Proc. of International Conference on Computer Graphics and Interactive Techniques, Florida, USA. 1994.

Google Scholar

[3] Xue Juntao, He Huaiqing and Zhang Muyun. Method of Lightning Rendering based Vega. Computer Engineering, 2007. 33(20): pp.225-227.

Google Scholar

[4] Zhao Yan. Research on Lightning based OpenGL. Department of Science and Mathematica, 2008, Shanghai Normal University.

Google Scholar

[5] Yang Zhenyu. An Optimized Method for Lightning Rendering based on Physical Subdivisions. Computer Application Technology 2008, Zhongshan University.

Google Scholar

[6] Dobashi, Y., T. Yamamoto, and T. Nishita. Efficient Rendering of Lightning Taking into Account Scattering Effects due to Clouds and Atmospheric Particles. in Computer Graphics and Applications, 2001.

DOI: 10.1109/pccga.2001.962896

Google Scholar

[7] Kim, T. and M.C. Lin. Physically Based Animation and Rendering of Lightning. in Computer Graphics and Applications 2004. PG 2004 Proceedings. 2004.

DOI: 10.1109/pccga.2004.1348357

Google Scholar

[8] Zhengyuan, J., et al., Statistical Description of Debris Particle Size Distribution in Electrical Discharge Marchining. Chinese Journal of Mechanical Engineering, 2011. 24(1): pp.67-72.

DOI: 10.3901/cjme.2011.01.067

Google Scholar

[9] Kou Yong, Method of lightning simulation based on multiple subdivisions. Computer engineering and disign, 2011. 32(10): pp.3522-3526.

Google Scholar

[10] Qiu Dehong, Li Xiaofeng, Investigation of the features of Three Dimensional Paths Spark Breakdowns in Air. High Voltage Technique. 2000. 26(5): pp.43-45.

Google Scholar