1. Using Copulas for analysis of large datasets in renewable distributed generation: PV and wind power integration in Iran
- Author
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Valizadeh Haghi, H., Tavakoli Bina, M., Golkar, M.A., and Moghaddas-Tafreshi, S.M.
- Subjects
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COPULA functions , *RENEWABLE energy sources , *DISTRIBUTED power generation , *WIND power , *PHOTOVOLTAIC power generation , *STOCHASTIC models , *MONTE Carlo method , *SIMULATION methods & models - Abstract
Abstract: Renewable distributed generation introduced as an environmental friendly alternative energy supply while it provided the power system with ever-growing technical benefits such as loss reduction and feeder voltage improvement. The evaluation of the effects of small residential photovoltaic and wind DG systems on various system operating indices and the system net load is complicated by both the probabilistic nature of their output and the variety of their spatial allocations. The increasing penetration of renewable distributed generation in power systems necessitates the modeling of this stochastic structure in operation and planning studies. An advanced stochastic modeling of the system requires multivariate uncertainty analysis involving non-normal correlated random variables. Such an analysis is to epitomize the aggregate uncertainty corresponding to spatially spread stochastic variables. In this paper, an integration study of photovoltaics and wind turbines, distributed in a distribution network, is investigated based on the stochastic modeling using Archimedean copulas as a new efficient tool. The basic theory concerning the use of copulas for dependence modeling is presented and focus is given on an Archimedean algorithm. A comprehensive case study for Davarzan area in Iran is presented after reviewing Iran''s renewable energy status. This study shows an application of the presented technique when large datasets, assuming 10-min interval between data points of PV, wind and load profiles, are involved where a deterministic study is not trivial. [Copyright &y& Elsevier]
- Published
- 2010
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