Abstract:
Harnessing Non Conventional Renewable Energy (NCRE) sources as small-scale
embedded generation is rapidly increasing around the world. Modelling most NCRE based generation
becomes an arduous task owing to their extremely volatile nature of resource availability along with
present day economic, technical, social and environmental constraints. In this context, Sri Lanka is no
exception. According to the energy policy-2006, energy share from NCRE is targeted to reach 10% of
total electricity generation by 2015. According to National Renewable Energy Laboratory (NREL)
report [1],wind energy potential in Sri Lanka is high compared with other technologies; mini hydro
and biomass. Recent commissioning of about 30 MW of wind plants in Kalpitiya peninsula is an
indication of investor interest in wind energy development for power generation. Therefore, modelling
of wind power plants in long term planning can no longer be simple, such as representation as a
lumped equivalent thermal plant with high Forced Outage Rate (FOR).Preparation of a macro scale
wind plant model for Sri Lanka has not been undertaken before using the economic optimisation tool
Wien Automatic System Planning (WASP)package. This gap is addressed in this paper. Two models '
were initially prepared to be compatible with WASP. An in-depth study using (i) Modified Load
Duration Curve method and (ii)Run of River (ROR)type hydro equivalent wind model based on five
state probabilistic distributions, were investigated. Compatibility of new models was tested with
WASPfor dispatching as embedded generators. Considering the model simplicity, requirement of time
& effort for sensitivity analyses and modifications, the later approach was concluded as the most
appropriate for long term planning studies.