Numerical Calculation of Photovoltaic Sunshade Component’s Shading Coefficient

Xiang Zhang; Li Ying Xie; Bao Nian Feng; Zhong Li; Rui Jiang Hong

doi:10.4028/www.scientific.net/AMR.1008-1009.1285

Paper Titles

Based on the ANSYS Analysis of the Open Hole in the Floor Cracks
p.1265

Comparative Study of New Construction and Renovation Project Based on Carbon Emission
p.1269

Design of Building Energy Consumption Monitoring System
p.1274

Development of and Defect Prevention in Novel Monocomponent Polyurethane Waterproof Coating
p.1278

Numerical Calculation of Photovoltaic Sunshade Component’s Shading Coefficient
p.1285

Physical Simulation Study on Transverse Effect of Bolted Discontinuous Rock Mass
p.1292

Research on Carrying Capacity Evaluation of some Reinforced Concrete Bridge under the Special Type Load
p.1297

The Calculation of Truss Deformation Using ANASYS
p.1302

The Energy-Saving and Land-Saving Utilization on Solar Radiation of Mountain Traditional Dwellings in East Shanxi — Take Hedi Town and Sandu Village as Examples
p.1306

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1008-1009Numerical Calculation of Photovoltaic Sunshade...

Numerical Calculation of Photovoltaic Sunshade Component’s Shading Coefficient

Abstract:

The photovoltaic sunshade component has been widely used in BIPV for its artistic and energy conservation, In this paper, a mathematical model of photovoltaic sunshade component was established, the influence of its oblique angle, ratio of stretching out and the install height on shading coefficient was analyzed specifically. Considering the requirement of generating electricity, an engineering project was constructed as the optimum modeling parameter, eventually, a universal design parameter of photovoltaic sunshade component was obtained.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 1008-1009)

Pages:

1285-1291

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1008-1009.1285

Citation:

Cite this paper

Online since:

August 2014

Authors:

Xiang Zhang, Li Ying Xie, Bao Nian Feng, Zhong Li, Rui Jiang Hong*

Keywords:

Numerical Calculation, Photovoltaic Sunshade Component, Shading Coefficient

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Offiong A, Ukpoho A U. An analysis of solar gain through externally shaded window of buildings[J]. Renewable energy, 2004, 29(1): 131-150.

DOI: 10.1016/s0960-1481(03)00146-0

Google Scholar

[2] Jian Y W, Wang S Y. An analysis of the effect of horizontal and vertical sunshade on west and north windows in Beijing [J]. Xi'an University of Architecture and Technology journal, 2001, 33(3): 212-217. （In Chinese）.

Google Scholar

[3] Yoo S H, Lee E T. Efficiency characteristic of building integrated photovoltaic as a shading device [J]. Building and Environment, 2002, 37(6): 615-623.

DOI: 10.1016/s0360-1323(01)00071-3

Google Scholar

[4] Yuan Q, Huang J. China meteorological database of construction standards [M]. China Machine Press, (2004).

Google Scholar

[5] Sdringola P, Proietti S, Desideri U, Giombini G. Thermo-fluid dynamic modeling and simulation of a bioclimatic solar greenhouse with self-cleaning and photovoltaic glasses [J]. ENERGY AND BUILDINGS, 2013, 68: 183-195.

DOI: 10.1016/j.enbuild.2013.08.011

Google Scholar

[6] Davidsson H, Perers B, Karlsson B. System analysis of a multifunctional PV/T hybrid solar window [J]. SOLAR ENERGY, 2011, 86(3): 903-910.

DOI: 10.1016/j.solener.2011.12.020

Google Scholar

[7] Yu G J, So J H, Jung YS, Kang G H, Choi J Y, Performance results of 15 kW BIPV sunshade system [M]. IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE, 2005, 1722-1725.

DOI: 10.1109/pvsc.2005.1488481

Google Scholar

[8] Yoo S H, Lee E T, Efficiency characteristic of building integrated photovoltaics as a shading device. 37(6): 615-623.

DOI: 10.1016/s0360-1323(01)00071-3

Google Scholar