Energy Storage (ES) sizing for commercial building with solar PV

Sulaiman, Nur ‘Aqilah (2019) Energy Storage (ES) sizing for commercial building with solar PV. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

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Abstract

The market of renewable energy especially solar PV in the power grid has been widely expanding around the world. Most of the solar energy is depend on the sunlight due to the weather conditions. However, high penetration of solar PV must consider the negative impacts on power network such as voltage rises, power fluctuations and reverse power flow. Since the solar PV are unstable and often inconsistent. It must use the most suitable solution that can be stabilize the power generation. Recently, energy storage system has been seen as an effective solution to overcome those challenges while improving load factors and the utilization of network infrastructures. Energy storage system is known as one of the structural units of the smart grid have experienced a rapid growth in cost effectiveness and maturity. The purpose of this project is to reduce peak demand and improve load factor for commercial building with PV by developing energy storage dispatch strategy. It minimizes the cost of electricity by identifying the optimum size of energy storage in commercial building with solar PV. It also evaluates the effect of PV growth on the profitability of deploying ES. In this project, there will be a method to find the sizing energy storage. Firstly, model dispatch strategy for energy storage using analytical method. Secondly, evaluate the dispatch strategy. Lastly, optimization approach which is genetic algorithm (GA) to find the optimum size of energy storage. The sizing energy storage will be used the optimization methods. With the help of the developed methods, energy storage designs can be optimized for any solar PV applications with the necessary changes according to the practical applications. Finally, results show that the proposed of optimization approach can minimizes the electricity bills and optimum size of energy storage for solar PV.

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