Extenuation of Voltage Variations and Load Leveling in Wind-DG Microgrid with Back Propagation using ANFIS Controller
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Abstract
This paper manages a wind-DG (Diesel Generator) half breed design of the micro grid utilizing a voltage source converter (VSC) as a voltage and frequency controller (VFC). The wind control created by permanent magnet brushless DC generator (PMBLDCG), and the most extreme power is trapped by a maximum power point strategy (MPPT) utilizing a boost converter with an incremental conductance (INC) approach. This power is provided to the purchaser burdens and surplus power is put away into battery storage (BS). BS is appended at DC connection of VSC which gives stack leveling amid less or no wind conditions. With such mix of vitality assets, a decreased rating, diesel motor driven squirrel confine acceptance generator (SCIG) sustains burdens and VSC at purpose of basic coupling (PCC) bolsters the network when the wind are can't take care of out the heap demand. Back proliferations nourish forward (BPFF) control using ANFIS calculation is utilized for VF control of VSC. This controller gives sounds end, stacks leveling and responsive power remunerations and furthermore manages the voltage at PCC.
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