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An effective optimization strategy for design of standalone hybrid renewable energy systems

Abstract:

In this research, a hybrid algorithm called a Gradient Artificial Hummingbird Algorithm (GAHA) is developed for reducing energy cost (EC) of microgrid system; this hybrid approach is based on the combination between Gradient based optimizer (GBO) and Artificial Hummingbird Algorithm (AHA). This proposed GAHA is firstly tested on a group of 23 benchmark test functions, and its obtained results are compared with five well-known algorithms including supply-demand-based optimization (SDO), wild horse optimizer (WHO), grey wolf optimizer (GWO), tunicate swarm algorithm (TSA) and original AHA algorithm. The obtained results using the GAHA algorithm show better performance in most cases and comparative results in other cases. Moreover, the developed GAHA algorithm is applied to obtain the optimal configuration of an isolated hybrid system, which is consists of photovoltaic (PV) modules, wind turbine (WT), biomass system, and battery storage system. The proposed standalone hybrid system is implemented for feeding loads in the new Tiba city, in northeast of Luxor in southern Egypt. GAHA technology is applied to four different system configurations to obtain the optimal system design. The GAHA optimization findings are compared with the findings from other optimization algorithms namely the original AHA, Sine Cosine Algorithm (SCA), and whale optimization algorithm (WOA) methods. The GAHA method achieved the best results for all the suggested configuration scenarios compared to the rest of the algorithms used.