BIPV with On-Grid Tariff Policy in China

Rong Guo

doi:10.4028/www.scientific.net/AMR.986-987.255

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 986-987BIPV with On-Grid Tariff Policy in China

BIPV with On-Grid Tariff Policy in China

Abstract:

Building integrated photovoltaic (BIPV) is an important direction of the green building. BIPV has developed rapidly in many developed countries and effectively saved resources. It owes to the government's effective promotion policy. The implementation of the on-grid tariff policy is a new stage of BIPV development. BIPV on-grid tariff pricing is a key point of BIPV promotion. Whether on-grid tariff is reasonable and applicable or not will directly affect the implementation effect of BIPV on-grid tariff policy. The current international common standard cost method is used to calculate on-grid tariff. Many countries implement unified on-grid tariff standard in their country, and often ignores the differences between different projects and areas. Based on the average on-grid tariff with standard cost method ,combined with the influence factors of BIPV on-grid tariff this paper build a corresponding on-grid tariff adjustment coefficient system with the current study method. Three methods used to get this goal are given and analyzed in this paper, the Delphi method, fuzzy mathematics method and neural network. This paper uses the Delphi method to build the on-grid tariff adjustment coefficient system model and choose three main factors, annual effective utilization hours, combination mode and PV system capacity, to build the on-gird tariff coefficient adjustment system model. This paper provides a reference basis of BIPV promotion policies and on-grid tariff pricing model for many countries.

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Periodical:

Advanced Materials Research (Volumes 986-987)

Pages:

255-258

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.986-987.255

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Online since:

July 2014

Authors:

Rong Guo*

Keywords:

BIPV, On-Grid Tariff, Sustainable Development

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References

[1] Al-Salaymeh, A., Al-Hamamre, Z., Sharaf, F., Abdelkader M.R.: Technical and Economical Assessment of the Utilization of Photovoltaic Systems in Residential Buildings: the Case of Jordan. Energy Conversion and Management 51, 1719–1726 (2010).

DOI: 10.1016/j.enconman.2009.11.026

Google Scholar

[2] Cellura, M., Di Gangi, A., Longo, S., Orioli, A.: Photovoltaic Electricity Scenario Analysis in Urban Contests: an Italian Case Study. Renewable and Sustainable Energy Reviews 16, 2041–2052 (2012).

DOI: 10.1016/j.rser.2012.01.032

Google Scholar

[3] Y. Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D. Gupta Noyes Publications/William Andrew Publising, Norwich, NY (2004), in press.

Google Scholar

[4] Suri, M., Huld, T.A., Dunlop, E.D., Ossenbrik, H.A.: Potential of Solar Electricity Generation in the European Union Member States and Candidate Countries. Solar Energy 81, 1295–1305 (2007) CrossRef.

DOI: 10.1016/j.solener.2006.12.007

Google Scholar

[5] Villarini, M., Limiti, M., Abenavoli, R.I.: Overview and Comparison of Global Concentrating Solar Power Incentives Schemes by Means of Computational Models. In: Murgante, B., Gervasi, O., Iglesias, A., Taniar, D., Apduhan, B.O. (eds. ) ICCSA 2011, Part IV. LNCS, vol. 6785, p.258–269. Springer, Heidelberg (2011).

DOI: 10.1007/978-3-642-21898-9_22

Google Scholar

[6] European Photovoltaic Industry Association, http: /www. epia. org.

Google Scholar