In this paper, a strategy is proposed in order to introduce in a realistic way wind generation into a HL11 (bulk power system) non sequential Monte Carlo adequacy study with economic dispatch. Thanks to the implemen...In this paper, a strategy is proposed in order to introduce in a realistic way wind generation into a HL11 (bulk power system) non sequential Monte Carlo adequacy study with economic dispatch. Thanks to the implemented solution, wind generation is consequently confronted to operational constraints related to high powered thermal units, nuclear parks or thermal machines with technical minimum value. Moreover, during each simulated system state, a DC load flow is also calculated in order to evaluate reinforcements optimizing the large scale integration of wind power production. The simulation tool modified during the present work is called Scanner and is the property of Tractebel Engineering (Gaz de France-Suez) company. It has been here applied to an academic test system: the Roy Billinton Test System (RBTS).展开更多
文摘In this paper, a strategy is proposed in order to introduce in a realistic way wind generation into a HL11 (bulk power system) non sequential Monte Carlo adequacy study with economic dispatch. Thanks to the implemented solution, wind generation is consequently confronted to operational constraints related to high powered thermal units, nuclear parks or thermal machines with technical minimum value. Moreover, during each simulated system state, a DC load flow is also calculated in order to evaluate reinforcements optimizing the large scale integration of wind power production. The simulation tool modified during the present work is called Scanner and is the property of Tractebel Engineering (Gaz de France-Suez) company. It has been here applied to an academic test system: the Roy Billinton Test System (RBTS).
