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W2071719503 abstract "• This methodology allows estimating the long-term energy production of a CPV project with σ = 5%. • The long-term trend of DNI is determined from satellite and its bias is corrected through a measurement campaign. • The Yield Assessment is carried out using a physical model that simulates the energetic yield of a reference CPV system. • The Certificate of Provisional Acceptance is delivered through on-site measurements achievable within one or two weeks. • The Certificate of Final Acceptance is awarded on the basis of a continuous monitoring campaign during 1 or 2 years. Concentrating Photovoltaics (CPV) is an alternative to flat-plate module photovoltaic (PV) technology. The bankability of CPV projects is an important issue to pave the way toward a swift and sustained growth in this technology. The bankability of a PV plant is generally addressed through the modeling of its energy yield under a baseline loss scenario, followed by an on-site measurement campaign aimed at verifying its energy performance. This paper proposes a procedure for assessing the performance of a CPV project, articulated around four main successive steps: Solar Resource Assessment, Yield Assessment, Certificate of Provisional Acceptance, and Certificate of Final Acceptance. This methodology allows the long-term energy production of a CPV project to be estimated with an associated uncertainty of ≈5%. To our knowledge, no such method has been proposed to the CPV industry yet, and this critical situation has hindered or made impossible the completion of several important CPV projects undertaken in the world. The main motive for this proposed method is to bring a practical solution to this urgent problem. This procedure can be operated under a wide range of climatic conditions, and makes it possible to assess the bankability of a CPV plant whose design uses any of the technologies currently available on the market. The method is also compliant with both international standards and local regulations. In consequence, its applicability is both general and international." @default.
W2071719503 created "2016-06-24" @default.
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W2071719503 date "2014-04-01" @default.
W2071719503 modified "2023-10-04" @default.
W2071719503 title "A bankable method of assessing the performance of a CPV plant" @default.
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W2071719503 cites W1543724305 @default.
W2071719503 cites W1548277890 @default.
W2071719503 cites W1570217116 @default.
W2071719503 cites W1903422408 @default.
W2071719503 cites W1973456903 @default.
W2071719503 cites W1983187079 @default.
W2071719503 cites W1983571822 @default.
W2071719503 cites W1988967104 @default.
W2071719503 cites W1990267573 @default.
W2071719503 cites W1991187816 @default.
W2071719503 cites W1991535594 @default.
W2071719503 cites W1991659083 @default.
W2071719503 cites W1993828715 @default.
W2071719503 cites W1994113540 @default.
W2071719503 cites W1995370423 @default.
W2071719503 cites W1997686689 @default.
W2071719503 cites W2000584686 @default.
W2071719503 cites W2005107454 @default.
W2071719503 cites W2005227674 @default.
W2071719503 cites W2011627153 @default.
W2071719503 cites W2014081682 @default.
W2071719503 cites W2018985072 @default.
W2071719503 cites W2023949452 @default.
W2071719503 cites W2027581155 @default.
W2071719503 cites W2029632099 @default.
W2071719503 cites W2030216404 @default.
W2071719503 cites W2036687950 @default.
W2071719503 cites W2036812982 @default.
W2071719503 cites W2037076590 @default.
W2071719503 cites W2040079436 @default.
W2071719503 cites W2043719159 @default.
W2071719503 cites W2045792861 @default.
W2071719503 cites W2052584064 @default.
W2071719503 cites W2062739693 @default.
W2071719503 cites W2065350632 @default.
W2071719503 cites W2071224618 @default.
W2071719503 cites W2081784857 @default.
W2071719503 cites W2083165229 @default.
W2071719503 cites W2083426264 @default.
W2071719503 cites W2094399368 @default.
W2071719503 cites W2095488491 @default.
W2071719503 cites W2099951644 @default.
W2071719503 cites W2103074007 @default.
W2071719503 cites W2104091987 @default.
W2071719503 cites W2105298510 @default.
W2071719503 cites W2120388701 @default.
W2071719503 cites W2123541915 @default.
W2071719503 cites W2125011060 @default.
W2071719503 cites W2125194344 @default.
W2071719503 cites W2132778770 @default.
W2071719503 cites W2144970185 @default.
W2071719503 cites W2151771380 @default.
W2071719503 cites W2162023232 @default.
W2071719503 cites W2321348641 @default.
W2071719503 doi "https://doi.org/10.1016/j.apenergy.2013.12.014" @default.
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