Impacts of Stochastic Residential Plug-In Electric Vehicle Charging on Distribution Grid
Paper in proceeding, 2012
In this paper, the impacts of residential Plug-In
Electric Vehicles (PEVs) charging on a distribution grid are
investigated. A stochastic charging model is developed and used
to study the impacts on distribution transformer loading, hotspot
temperature variation and Accelerated Aging Factor (AAF) of
the transformer. Different penetration levels of PEVs are
considered in a typical distribution system. Furthermore,
distribution of State of Charge (SOC) is discussed which can be
used to optimize battery capacity and required charging
infrastructure. Distribution of parking time interval is also
discussed which can be used to evaluate availability of PEVs for
overnight charging. The merit of stochastic approach compared
with deterministic approach is also illustrated. The main
contribution of this paper is the stochastic approach to evaluate
the impact of residential PEV charging on the distribution grid.
SOC
PEVs
AAF
stochastic
charging interval
probabilistic distribution
parking interval
transformer loading.
residential charging
distribution grid
hotspot temperature
Author
Kalid Yunus
Chalmers, Energy and Environment, Electric Power Engineering
M. Reza
H Zelaya-De La Parra
K. Srivastava
Innovative Smart Grid Technologies (ISGT), 2012 IEEE PES
16-20 Jan. 2012 8-
978-1-4577-2158-8 (ISBN)
Driving Forces
Sustainable development
Areas of Advance
Transport
Energy
Subject Categories
Other Electrical Engineering, Electronic Engineering, Information Engineering
ISBN
978-1-4577-2158-8