The purpose of this study was to apply formal risk analysis techniques
to the issue of islanding of photovoltaic power systems within low
voltage distribution networks. The aim was to perform a first pass
calculation to determine the additional level of risk that islanding
could present to the safety of customers and network maintenance
staff. In the event of a loss of mains supply, grid-connected PV
systems are required to automatically disconnect from the grid in
order to prevent the network from islanding. This study has identified
the reliability required of the islanding detection and control systems
and their installation, based on standard procedures for developing
a safety assurance strategy.
%0 Report
%1 Cullen.Thornycroft.ea2002
%A Cullen, N.
%A Thornycroft, J.
%A Collinson, A.
%D 2002
%I IEA PVPS Task V
%K Photovoltaics, Probability, analysis, connected, grid installation, integrity islanding, level low networks, non-detection risk safety safety, voltage zone,
%T Risk analysis of islanding of photovoltaic power systems within low
voltage distribution networks
%U http://www.iea-pvps.org/products/download/rep5_08.pdf
%X The purpose of this study was to apply formal risk analysis techniques
to the issue of islanding of photovoltaic power systems within low
voltage distribution networks. The aim was to perform a first pass
calculation to determine the additional level of risk that islanding
could present to the safety of customers and network maintenance
staff. In the event of a loss of mains supply, grid-connected PV
systems are required to automatically disconnect from the grid in
order to prevent the network from islanding. This study has identified
the reliability required of the islanding detection and control systems
and their installation, based on standard procedures for developing
a safety assurance strategy.
@techreport{Cullen.Thornycroft.ea2002,
abstract = {The purpose of this study was to apply formal risk analysis techniques
to the issue of islanding of photovoltaic power systems within low
voltage distribution networks. The aim was to perform a first pass
calculation to determine the additional level of risk that islanding
could present to the safety of customers and network maintenance
staff. In the event of a loss of mains supply, grid-connected PV
systems are required to automatically disconnect from the grid in
order to prevent the network from islanding. This study has identified
the reliability required of the islanding detection and control systems
and their installation, based on standard procedures for developing
a safety assurance strategy.},
added-at = {2011-09-01T13:26:03.000+0200},
author = {Cullen, N. and Thornycroft, J. and Collinson, A.},
biburl = {https://www.bibsonomy.org/bibtex/2ae944fdc86d249f83b16c270721c4e00/procomun},
file = {Cullen.Thornycroft.ea2002.pdf:Cullen.Thornycroft.ea2002.pdf:PDF},
interhash = {621aeb0c6a094f88b5bd98d3eef2c977},
intrahash = {ae944fdc86d249f83b16c270721c4e00},
keywords = {Photovoltaics, Probability, analysis, connected, grid installation, integrity islanding, level low networks, non-detection risk safety safety, voltage zone,},
owner = {oscar},
publisher = {IEA PVPS Task V},
refid = {Cullen.Thornycroft.ea2002},
timestamp = {2011-09-02T08:25:25.000+0200},
title = {Risk analysis of islanding of photovoltaic power systems within low
voltage distribution networks},
url = {http://www.iea-pvps.org/products/download/rep5_08.pdf},
year = 2002
}