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* P. Denholm, R.M. Margolis, "'''Evaluating the limits of solar photovoltaics (PV) in traditional electric power systems'''", ''Energy Policy'', vol.'''35''', pp. 2852-2861 (2007). ([[http:// | * P. Denholm, R.M. Margolis, "'''Evaluating the limits of solar photovoltaics (PV) in traditional electric power systems'''", ''Energy Policy'', vol.'''35''', Iss.5, pp. 2852-2861 (2007). ([[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V2W-4MFCW7V-2&_user=1025668&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000050549&_version=1&_urlVersion=0&_userid=1025668&md5=b08bd315411486c6a58d391d74163d0c]]) | ||
** NOTES: | ** NOTES: | ||
*** 'we evaluate the ability of PV to provide a large fraction (up to 50%) of a utility system’s energy by comparing hourly output of a simulated large PV system to the amount of electricity actually usable.' | *** 'we evaluate the ability of PV to provide a large fraction (up to 50%) of a utility system’s energy by comparing hourly output of a simulated large PV system to the amount of electricity actually usable.' | ||
** CONCLUSIONS: | ** CONCLUSIONS: | ||
*** 'The limited flexibility of base load generators produces increasingly large amounts of unusable PV generation when PV provides perhaps 10–20% of a system’s energy.' | *** 'The limited flexibility of base load generators produces increasingly large amounts of unusable PV generation when PV provides perhaps 10–20% of a system’s energy.' |
Revision as of 15:56, 26 January 2009
Literature Search on PV Penetration
Journal of Renewable and Sustainable Energy
Keep alphabetized list of references with notes after in the following format: S. E. Shaheen, C. J. Brabec, N. S. Sariciftci, F. Padinger, T. Fromherz, and J. C. Hummelen, Appl. Phys. Lett. 78, 841 (2001) (hyperlinked title).
See also: User:J.M.Pearce/PV+CHP
This is a list of refs for PV penetration levels (also try solar, photovoltaic, intermittent, or distributed generation penetration/percent/) - this refers to the maximum amount of solar photovoltaic electricity able to be provided reliably on the grid.
- Names, "Title", source, vol. 1, Iss. 2, pp. 888 (year). (hyperlinked title)
Articles
- P. Denholm and R. Margolis, "Very Large-Scale Deployment of Grid-Connected Solar Photovoltaics in the United States: Challenges and Opportunities", U.S. Department of Energy, NREL (National Renewable Energy Laboratory), Conference Paper Preprint for Solar 2006 (2006)([[1]])
- NOTES:
- Figures of System Load with and without large PV systems on two summer and two spring days.
- Model to analyze the impacts of large-scale PV deployment.
- CONCLUSIONS:
- 'By increasing the system flexibility, it now becomes at least theoretically possible to provide 50% of the system's energy from PV - although this requires the ability to completely turn off all conventional generation for short periods of time without cost penalty.'
- 'We found that increasing the flexibility of the electric power system in the simulated system could increase the contribution of PV to perhaps 20%-30%. Beyond this contribution, enabling technologies such as fuel switching in "smart" appliances, dispatchable load from plug-in hybrid or other electric vehicles, or stationary energy storage would be required to enable very high levels of PV contribution to the electric power system.'
- NOTES:
- R. Perez, S. Letendre, and C. Herig, "PV and Grid Reliability: Availability of PV Power during Capacity Shortfalls", University of Albany (2001)([[2]])
- NOTES:
- Figure of PV Availability during major summer 1999-2000 outages.
- CONCLUSIONS:
- 'it would take very little in terms of back-up storage or end-use load management associated with PV to provide the equivalent of firm PV capacity up to significant load penetration levels.'
- NOTES:
- P. Denholm, R.M. Margolis, "Evaluating the limits of solar photovoltaics (PV) in traditional electric power systems", Energy Policy, vol.35, Iss.5, pp. 2852-2861 (2007). ([[3]])
- NOTES:
- 'we evaluate the ability of PV to provide a large fraction (up to 50%) of a utility system’s energy by comparing hourly output of a simulated large PV system to the amount of electricity actually usable.'
- CONCLUSIONS:
- 'The limited flexibility of base load generators produces increasingly large amounts of unusable PV generation when PV provides perhaps 10–20% of a system’s energy.'
- NOTES: