Employing of wind turbine (WT) similar to most green power sources is grew recently because of its eco-friendly property. This work suggested a novel organization for integrated system with energy storage system (ESS) and WTs, in which, charging of battery can be done via wind turbine or supplied electricity from upper grid. Moreover, we can sell the saved energy of battery to power market in peak and high tariff times whereas regarding to electricity market tariffs, outlet power of wind turbine can straightly be inserted to upstream grid also it can be utilized for ESS charging. Also, this paper suggested a case-based stochastic frame for modeling of power market tariff and wind speed as uncertain parameters. Production of power yield price scenarios is made by standard distribution function whereas wind speed ones are produced by Weibull function. For achieving to optimum offering and bidding trends at all times, a mixed-integer linear programming (MILP) approach is employed for bidding and offering power respectively in order to purchase and sell energy from and to upper grid. Eventually, achieved results are provided and analyzed.
© All rights reserved by . Designed By : Faraznet ( Online portal management and Arbitration Journal ) ver.7.1