مشخصات پژوهش

Rapid growth of the variable and intermittent renewable generation in multi microgrid distribution network (MMG-DN) has derived a gross violation in power balance due to the scarcity of ramp capacity. To neutralize this shortage, the present study develops a market-oriented approach for supplying flexibility ramping products (FRPs) in an MMG-DN. The proposed approach appraises a ramping capacity of local microgrids (MGs) which encompass various distributed energy resources (DERs) through a bi-level programming. To do so, an intervalbased security constraint economic dispatch (SCED) process is accomplished at the upper level considering the network’s requirement of upward/downward ramp capacity along with addressing the uncertainties. In addition, local MGs establish their optimal bidding strategies to supply FRPs at the lower level according to the offer prices from the distribution network. A direct mathematical technique has been utilized to convert the proposed bi-level programming into the single level one called Mathematical Program with Equilibrium Constraints (MPEC). Finally, the adopted non-linear MPEC transforms into a mixedinteger linear programming using the strong duality theorem (STD). The proposed approach has been examined on a test system. The results prove efficiency of the proposed framework in providing adequate FRPs for the MMG-DN without relying on the upstream grid.