This paper presents an analysis of the potential impact of integrating
photovoltaics (PV) into the Western Australian electricity networks.
It uses real-time load and Australian Bureau of Meteorology climate
data to assess PVâs ability to reduce peak generation requirements,
defer network augmentation, reduce line losses and reduce the cost
of conventional supply in the Western Australian electricity networks
and regional grids. It then identifies existing market opportunities
for PV in Western Australia (WA), examines whether these capture
the identified benefits and discusses strategies for capturing the
system benefits provided by PV.
%0 Journal Article
%1 Passey.Watt.ea2009
%A Passey, R. J.
%A Watt, M. E.
%A Snow, M.
%A Outhred, H. R.
%A Spooner, T.
%D 2009
%J Progress in Photovoltaics
%K Australia Western augmentation, generation, line losses, network peaking
%T Study of Grid-connect Photovoltaic Systems: Benefits, Opportunities
and Strategies
%X This paper presents an analysis of the potential impact of integrating
photovoltaics (PV) into the Western Australian electricity networks.
It uses real-time load and Australian Bureau of Meteorology climate
data to assess PVâs ability to reduce peak generation requirements,
defer network augmentation, reduce line losses and reduce the cost
of conventional supply in the Western Australian electricity networks
and regional grids. It then identifies existing market opportunities
for PV in Western Australia (WA), examines whether these capture
the identified benefits and discusses strategies for capturing the
system benefits provided by PV.
@article{Passey.Watt.ea2009,
abstract = {This paper presents an analysis of the potential impact of integrating
photovoltaics (PV) into the Western Australian electricity networks.
It uses real-time load and Australian Bureau of Meteorology climate
data to assess PVâs ability to reduce peak generation requirements,
defer network augmentation, reduce line losses and reduce the cost
of conventional supply in the Western Australian electricity networks
and regional grids. It then identifies existing market opportunities
for PV in Western Australia (WA), examines whether these capture
the identified benefits and discusses strategies for capturing the
system benefits provided by PV.},
added-at = {2011-09-01T13:26:03.000+0200},
author = {Passey, R. J. and Watt, M. E. and Snow, M. and Outhred, H. R. and Spooner, T.},
biburl = {https://www.bibsonomy.org/bibtex/2dda52661f94e0d792f235133fb1ad85a/procomun},
file = {Passey.Watt.ea2009.pdf:Passey.Watt.ea2009.pdf:PDF},
interhash = {d8f885a6d5905b9aeea11bc770fe3753},
intrahash = {dda52661f94e0d792f235133fb1ad85a},
journal = {Progress in Photovoltaics},
keywords = {Australia Western augmentation, generation, line losses, network peaking},
owner = {oscar},
refid = {Passey.Watt.ea2009},
timestamp = {2011-09-02T08:25:25.000+0200},
title = {Study of Grid-connect Photovoltaic Systems: Benefits, Opportunities
and Strategies},
year = 2009
}