孟加拉国混合供电LTE BS部署的网络可持续性优化

Abu Jahid, Md Shamimul Islam, A. Shams, Syed Rafiee Abied, Md. Farhad Hossain
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引用次数: 4

摘要

将绿色能源收集技术与不可再生能源相结合,在维持蜂窝网络的可持续性方面显示出显著的优势。本文提出了一个能源可持续发展框架,以提高孟加拉国混合电源远程蜂窝基站(BSs)的自力更生和网络可行性。因此,本文提出了一种综合太阳能光伏、风力涡轮机(WT)、柴油发电机(DG)供电解决方案,该解决方案具有足够的能量存储设备,可用于长期演进(LTE)背景下启用远程无线电头(RRH)的宏观BSs。采用可再生电力混合优化模型(HOMER)软件,从优化设计架构、发电量分析、成本评估和碳足迹等方面分析了系统在不同参数下的性能。优化过程的最终目标是通过最大化绿色能源利用来最小化燃料消耗的使用。结果调查了以最小净当前成本(NPC)为基准的拟议方案的长期可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of Network Sustainability for LTE BS Deployment in Bangladesh with Hybrid Supplies
Integration of green energy harvesting (EH) technology with non-renewable energy (RE) source has shown a remarkable aptitude for maintaining cellular network sustainability. This paper proposes an energy sustainable framework to increase self-reliance and network feasibility of the remote cellular base stations (BSs) in Bangladesh with hybrid power supply. As a result, this paper address an aggregate solar PV, wind turbine (WT), diesel generator (DG) power supply solution with adequate energy storage device for remote radio head (RRH) enabled macro BSs in the context of Long Term Evolution (LTE). A hybrid optimization model for electric renewable (HOMER) software is used to analyze the system performance in terms of optimal design architecture, energy yield analysis, cost assessment, and carbon footprints varying different parameters. The ultimate goal of the optimization process is to minimize the use of fuel consumption through maximizing green energy utilization. Results investigate the long-term viability of the proposed scheme regarding least net present cost (NPC).
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