A Power Aware Long Short-Term Memory with Deep Brief Network Based Microgrid Framework to Maintain Sustainable Energy Management and Load Balancing

N. Gowtham, V. Prema, Mahmoud F. Elmorshedy, M. S. Bhaskar, Dhafer J. Almakhles
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Abstract

Microgrids are seen as the future of reliable, sustainable and green energy source for myriad applications. The increasing dependence on microgrid also adds challenges on reliable management of power supply to vividly variant consumers, the major chunk being households coupled with an unprecedented rise in the demand for EV charging. This study aims at presenting a deep Long Short-Term Memory with Deep Brief Network model to reliably predict the grouped energy load and solar energy outcome in a community microgrid. A cutting-edge hybrid metaheuristic algorithm will be taken into consideration for optimizing the load dispatch of community microgrids that are connected to the grid. Three different scheduling scenarios are evaluated to establish an ideal dispatching design for a grid-linked community microgrid with solar elements and energy storage systems feeding electricity loads and charging electric vehicles. The prediction outcomes are integrated into the model to accommodate the uncertainties associated with solar energy outcome and residential energy load and EV charging to achieve a supply-demand equilibrium. The objective of the proposed model is to obtain an energy-efficient system capable of balancing the load and power of microgrid system which remains unperturbed by the aforesaid oscillations.
基于深度短时网络的电力感知长短期记忆微电网框架实现可持续能源管理和负载平衡
微电网被视为未来可靠、可持续和绿色的能源,应用广泛。对微电网的日益依赖也给千变万化的消费者(主要是家庭)带来了可靠的电力供应管理挑战,再加上电动汽车充电需求的空前增长。本研究旨在提出一个深度长短期记忆与深度短时网络模型,以可靠地预测社区微电网的分组能源负荷和太阳能输出。采用一种前沿的混合元启发式算法对社区微电网并网后的负荷调度进行优化。通过对三种不同调度方案的评估,建立了具有太阳能组件和储能系统的并网社区微电网的理想调度设计,为电力负荷供电并为电动汽车充电。将预测结果整合到模型中,以适应与太阳能结果、住宅能源负荷和电动汽车充电相关的不确定性,以实现供需平衡。提出的模型的目标是获得一个能够平衡微电网系统的负载和功率的节能系统,并且不受上述振荡的干扰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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