Issue
Renew. Energy Environ. Sustain.
Volume 2, 2017
Sustainable energy systems for the future
Article Number 35
Number of page(s) 6
DOI https://doi.org/10.1051/rees/2017035
Published online 08 September 2017
  1. M.P. Almeida, R. Zilles, E. Lorenzo, Extreme overirradiance events in São Paulo, Brazil, Sol. Energy 110, 168 (2014) [CrossRef]
  2. R.C. Andrade, C. Tiba, Extreme global solar irradiance due to cloud enhancement in northeastern Brazil, Renew. Energy 86, 1433 (2016) [CrossRef]
  3. P. Emck, M. Richter, An upper threshold of enhanced global shortwave irradiance in the troposphere derived from field measurements in tropical mountains, J. Appl. Meteorol. Climatol. 47, 2828 (2008) [CrossRef]
  4. R.H. Inman, Y. Chu, C.F.M. Coimbra, Cloud enhancement of global horizontal irradiance in California and Hawaii, Sol. Energy 130, 128 (2016) [CrossRef]
  5. R.D. Piacentini, G.M. Salum, N. Fraidenraich, C. Tiba, Extreme total solar irradiance due to cloud enhancement at sea level of the NE Atlantic coast of Brazil, Renew. Energy 36, 409 (2011) [CrossRef]
  6. R. Tapakis, A.G. Charalambides, Enhanced values of global irradiance due to the presence of clouds in Eastern Mediterranean, Renew. Energy 62, 459 (2014) [CrossRef]
  7. G.H. Yordanow, T.O. Saetre, O.-M. Midtgard, Extreme overirradiance events in Norway: 1.6 suns measured close to 60°N, Sol. Energy 115, 68 (2015) [CrossRef]
  8. G.H. Yordanow, A study of extreme overirradiance events for solar energy applications using NASA's I3RC Monte Carlo radiative transfer model, Sol. Energy 122, 954 (2015) [CrossRef]
  9. A.M. Pavan, A. Melit, A. de Pieri, The effect of soiling on energy production for large-scale photovoltaic plants, Sol. Energy 85, 1128 (2011) [CrossRef]
  10. C. Schill, S. Brachmann, M. Koehl, Impact of soiling on IV-curves and efficiency of PV-modules, Sol. Energy 112, 259 (2015) [CrossRef]
  11. S. Shrestha, M. Taylor, Soiling assessment in large-scale PV arrays, Solarpro 9, 20 (2016)
  12. J. Tanesab, D. Parlevliet, J. Whale, T. Urmee, T. Pryor, The contribution of dust to performance degradation of PV modules in a temperate climate zone, Sol. Energy 120, 147 (2015) [CrossRef]
  13. B. Burger, R. Rüther, Inverter sizing of grid-connected photovoltaic systems in the light of local solar resource distribution characteristics and temperature, Sol. Energy 80, 32 (2006) [CrossRef]
  14. J.K. Copper, A.B. Sproul, S. Jarnason, Photovoltaic (PV) performance modelling in the absence of onsite measured plane of array irradiance (POA) and module temperature, Renew. Energy 86, 760 (2016) [CrossRef]
  15. E. Drury, A. Lopez, P. Denholm, R. Margolis, Relative performance of tracking versus fixed tilt photovoltaic systems in the USA, Progr. Photovolt.: Res. Appl. 22, 1302 (2014)
  16. A.G. Gaglia, S. Lykoudis, A.A. Argiriou, C.A. Balaras, E. Dialynas, Energy efficiency of PV panels under real outdoor conditions − an experimental assessment in Athens, Greece, Renew. Energy 101, 236 (2017) [CrossRef]
  17. M. Lave, J. Kleissl, Optimum fixed orientations and benefits of tracking for capturing solar radiation in the continental United States. Renew. Energy 36, 1145 (2011) [CrossRef]
  18. J. Luoma, J. Kleissl, K. Murray, Optimal inverter sizing considering cloud enhancement, Sol. Energy 86, 421 (2012) [CrossRef]
  19. A.M. Nobre, S. Karthik, H. Liu, D. Yang, F.R. Martins, E.B. Pereira, R. Rüther, T. Reindl, H.M. Peters, On the impact of haze on the yield of photovoltaic systems in Singapore, Renew. Energy 89, 389 (2016) [CrossRef]
  20. T. Ozden, B.G. Akinoglu, R. Turan, Long term outdoor performances of three different on-grid PV arrays in central Anatolia − an extended analysis, Renew. Energy 101, 182 (2017) [CrossRef]
  21. R. Rüther, L.R. Nascimento, R. Campos, A.A. Montenegro, ANEEL R&D Project Report PE-0403-0027/2011 (2016)

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.