The potential for concentrator photovoltaics: A feasibility study in India

India has aggressive plans for scaling up photovoltaic installations in the coming decades. Currently fixed tilt, flat plate crystalline silicon (c‐Si) technology sets the standard for cost and performance and is both robust and relatively easy to deploy. Concentrator photovoltaics (CPV) systems have a different cost structure; using solar cells with the highest efficiencies, system efficiencies greater than 30% are possible, but the system is also more sensitive to meteorological conditions. India has a complex and varied atmosphere that prevents a straightforward comparison of technologies, and hence, in this paper, we use a computer model to simulate the power output from CPV systems located in locations in India where the Aerosol Robotic Network (AERONET) stations are based and additionally, in Bangalore where we have a CPV test station. We quantify the increased intermittency suffered by CPV systems that arises from the larger dynamic range in direct beam irradiance over global irradiance. Nevertheless, by calculating the target system costs required to attain a competitive levelized cost of electricity (LCOE), we find that CPV systems in some, but not all locations have the opportunity to compete against dual‐axis tracked and inclined c‐Si based PV in India The potential for solar power in India is huge and is likely to be tapped using conventional photovoltaic panels. However, concentrator photovoltaic (CPV) systems can offer some advantages, but the complex atmospheric conditions in India make the comparison of CPV systems with conventional technology difficult. Here, we use a computer model to simulate the energy yield from CPV systems located at four locations in India using detailed meteorological parameters. From this analysis, we establish a target CPV system cost that is required for the technology to become competitive against flat plate technology.