Negawatt-Driven Sustainable Energy Management Based-on Nanomaterial-Enhanced Batteries

Journal of Advanced Research in Applied Sciences and Engineering Technology Pub Date : 2024-05-07 DOI:10.37934/araset.44.2.247259

Marwa Ahmed Hassan, Noha Hany El-Amary, Amany Khaled

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Abstract

With the dramatic increase of energy demand around the world, it has become a necessity to monitor and optimize energy consumption to conserve its use and decrease carbon emissions. This paper presents a comprehensive analysis of MicroGrids (MGs) that encompass a diverse array of energy sources, including renewable energy, Diesel Generators (DGs), and Battery Storage Systems (BSS). In this study, critical constraints are addressed such as distributed generator limits and grid power exchange. Moreover, the potential integration of nanomaterials within BSS to enhance energy efficiency and achieve Negawatt energy are explored. The main objectives are to evaluate the performance of various energy system configurations, with a specific focus on nanomaterial-enhanced batteries, and identify the optimal strategy to minimize operating costs while maximizing Negawatt energy production. By considering technical, economic, and environmental factors, this research aims to provide valuable insights into sustainable and efficient Microgrid solutions for future energy management.

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基于纳米材料增强型电池的负瓦特驱动型可持续能源管理

随着全球能源需求的急剧增长，有必要对能源消耗进行监控和优化，以节约能源和减少碳排放。本文对微电网（MG）进行了全面分析，微电网包含多种能源，包括可再生能源、柴油发电机（DG）和电池存储系统（BSS）。在这项研究中，解决了分布式发电机限制和电网电力交换等关键制约因素。此外，还探讨了在 BSS 中集成纳米材料以提高能效和实现 Negawatt 能源的潜力。研究的主要目标是评估各种能源系统配置的性能，重点关注纳米材料增强型电池，并确定最佳策略，在最大限度提高负瓦特能源生产的同时，最大限度地降低运营成本。通过考虑技术、经济和环境因素，这项研究旨在为未来的能源管理提供有价值的可持续高效微电网解决方案。

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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来源期刊

Journal of Advanced Research in Applied Sciences and Engineering Technology

CiteScore

1.30

自引率

0.00%

发文量