Original scientific paper
ROLE OF PUMPED-STORAGE HYDROELECTRIC POWER PLANTS AND LARGE PENETRATION OF ELECTRIC VEHICLES IN INCREASING POWER SYSTEM FLEXIBILITY WITH LARGE SHARE OF RENEWABLE SOURCES
SARA RAOS
orcid.org/0000-0002-5025-8929
; HEP – ODS d.o.o, Elektra Karlovac
ŽELJKO TOMŠIĆ
orcid.org/0000-0002-4948-964X
; Faculty of Electrical Engineering and Computing, University of Zagreb Unska 3, 10000 Zagreb, Croatia
IVAN RAJŠL
; Faculty of Electrical Engineering and Computing, University of Zagreb Unska 3, 10000 Zagreb, Croatia
Abstract
The European Union's (EU) goals of reducing energy dependence and
reducing greenhouse gas emissions (GHG) are to be achieved primarily by
increasing production from renewable energy sources (RES). However, due to the
features of renewable sources such as unpredictability and lack of availability, it is
necessary to increase the flexibility of the systems themselves. In other words,
large penetration of RES into the power system requires a substantial increase in
the capacity of various energy storage technologies. Pumped storage hydroelectric
power plants (HPPs) represent 99% of global installed capacity of energy storage
and are widely spread, providing energy storage capacity and transmission grid
ancillary benefits in the US and Europe since 1920s, as well as in the rest of the
world. Besides, new technologies are considered worldwide, and as one of the most
prominent options considered today is the penetration of electric vehicles (EVs) into
the power systems. The use of EVs reduces air pollution while connecting them to
the smart grids creates the possibility of increasing the flexibility of the power system since vehicle batteries could be used as storage but also as sources of
electricity.
Using the PLEXOS energy market simulation software, the power system of
the Republic of Croatia was modelled in this paper and based on the results of
different scenarios, the role of pumped-storage power plants and large penetration
of electric vehicles in increasing the power system flexibility with a large share of
renewable sources was observed.
Keywords
greenhouse gas emissions; renewable energy sources; electric vehicles; pumped-storage power plants; energy storage technologies; power system flexibility
Hrčak ID:
199746
URI
Publication date:
15.12.2017.
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