Performance Evaluation of Solar Roof-Top PV on Eskom's LV Electric Power Distribution Networks

2019 7th International Conference on Smart Grid (icSmartGrid) Pub Date : 2019-12-01 DOI:10.1109/icSmartGrid48354.2019.8990721

I. Davidson, R. Reddy

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引用次数: 3

Abstract

The South African government policy to electrify all customers has placed immense demands on the electricity infrastructure. Several new connected customers in line with these government targets and plans are in networks that are already constrained, with the consequence of violating statutory performance requirements and electrical parameters, such as thermal loading, voltage limits and technical losses. Utilities' solutions to remedy these problems sometimes requires huge investments to upgrade infrastructure and this may take years for implementation. In many instances, short-term solutions are available and feasible. This study investigates Solar Roof-Top PV (RTPV) as a renewable energy resource for reticulation (11/22KV) networks. Currently RTPV is not well documented and guided when considering available Grid codes, Guidelines and Standards. This paper demonstrates that RTPV penetration is more worthwhile to consider than capital strengthening/refurbishment projects. The study demonstrates the supportive role of RTPV to meet electrification demands. With increased penetration of RTPV's on distribution networks, there is a benefit to the feeder tail-end voltages with reduced thermal loading and technical losses in distribution networks. This provides Utilities with the opportunity to electrify more customers and defer capital expenditure, while reducing the carbon footprint. The balance of the paper presents an accurate view of RTPV analysis, attributed to the accuracy of data, by using a practical network topology coupled with its related statistical loading. It further takes into account the associated customer connected at the LV transformers. With the imminent influx of RTPV, the results of this study will assist in equipping the South African Electricity Supply Industry (ESI) for the readiness of RTPV and the influence of RTPV on reticulation networks by quantifying the impacts and expectations for the Electric Power Utility and the customer.

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太阳能屋顶光伏在Eskom低压配电网络上的性能评价

南非政府的政策是让所有客户都通电，这对电力基础设施提出了巨大的要求。一些符合这些政府目标和计划的新接入客户已经在网络中受到限制，其后果是违反法定性能要求和电气参数，如热负荷、电压限制和技术损耗。公用事业公司解决这些问题的方案有时需要大量投资来升级基础设施，这可能需要数年时间才能实施。在许多情况下，短期解决方案是可用和可行的。本研究调查了太阳能屋顶光伏(RTPV)作为网状(11/22KV)网络的可再生能源。目前，在考虑可用的网格代码、指南和标准时，RTPV没有很好的文档和指导。本文表明，RTPV渗透比资本强化/翻新项目更值得考虑。该研究证明了RTPV在满足电气化需求方面的支持作用。随着RTPV在配电网上的普及，配电网中的热负荷和技术损失减少，对馈线端电压有好处。这为公用事业公司提供了机会，使更多的客户电气化，推迟资本支出，同时减少碳足迹。通过使用实际的网络拓扑及其相关的统计负载，本文的平衡部分给出了RTPV分析的准确视图，这归功于数据的准确性。它进一步考虑了在低压变压器处连接的相关客户。随着RTPV的即将涌入，本研究的结果将通过量化对电力公用事业和客户的影响和期望，帮助南非电力供应行业(ESI)为RTPV的准备和RTPV对电网的影响做好准备。

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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2019 7th International Conference on Smart Grid (icSmartGrid)

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