Optimal Design Grape Rain Shed Based on CFD and GSCAD

Jian Wang; Hong Bing Yang

doi:10.4028/www.scientific.net/AMR.328-330.654

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 328-330Optimal Design Grape Rain Shed Based on CFD and...

Optimal Design Grape Rain Shed Based on CFD and GSCAD

Abstract:

Plated PE plastic steel pipe has characteristics of high strength, light weight and strong resistance of corrosion and it is very suitable for construction of grape rain shed. The wind pressure distribution of multi-span grape rain shed frame is simulated by CFD software, and the structure of multi-span grape rain shed is optimized in this paper. The force structure of pre-optimal and post-optimal multi-span grape rain shed is analyzed by GSCAD. The study shows that the plated PE plastic steel pipe is suitable for grape rain shed, and the post-optimal multi-span grape has good performance.

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Periodical:

Advanced Materials Research (Volumes 328-330)

Pages:

654-657

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.328-330.654

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Online since:

September 2011

Authors:

Jian Wang, Hong Bing Yang

Keywords:

Computational Fluid Dynamics (CFD), Design, GSCAD, Multi-Span Grape Rain Shed, Plated PE Plastic Steel Pipe

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References

[1] J.C. Li, D.L. Shun and X.S. Zhang: Journal of Fruit Science, Vol. 26(2009) No. 6, P. 847. (In Chinese).

Google Scholar

[2] B.X. Sun, Y.Q. Bai, Y.J. Pang and S. Sun: Steel Tubes, Vol. 33(2004) No. 1, P. 38-41. (In Chinese).

Google Scholar

[3] C.W. Ma. Design and construction of agricultural facilities (Publishing House of China Agriculture, China 2008). (In Chinese).

Google Scholar

[4] A. Franco, D.L. Valera and A. Pena et al: Computers and Electronics in Agriculture. Vol. 76(2011) No. 2, P. 218.

Google Scholar

[5] T. Bartzanas, T. Boulard and C. Kittas: Biosystems Engineering, Vol. 88(2004) No. 4, P. 479.

Google Scholar

[6] T. Boularda, J.C. Royb and H. Fatnassi et al: Computers and Electronics in Agriculture, Vol. 74(2010) No. 2, P. 280-292.

Google Scholar

[7] H. Majdoubi, T. Boulard, H. Fatnassi and L. Bouirden: Agricultural and Forest Meteorology, Vol. 149(2009) No. 6-7, P. 1050.

DOI: 10.1016/j.agrformet.2009.01.002

Google Scholar

[8] D. Briassoulis and A. Mistriotis: Biosystems Engineering, Vol. 105(2010) No. 2, P. 205.

Google Scholar

[9] D. Briassoulis, A. Mistriotis and A. Giannoulis: Journal of Wind Engineering and Industrial Aerodynamics, Vol. 98(2010) No. 12, P. 919.

DOI: 10.1016/j.jweia.2010.09.006

Google Scholar

[10] P. Karava, T. Stathopoulos and A.K. Athienitis: Building and Environment, Vol. 46(2011) No. 1, P. 266.

Google Scholar

[11] C.J. Zhou. Modern Greenhouse Engineering (Publishing House of Chemistry and Industry, China 2003). (In Chinese).

Google Scholar