现有网格规范的挑战和对增强标准的呼吁

Anshu Murdan, Iqbal Jahmeerbacus, S Z Sayed Hassen
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摘要

& lt; abstract>可再生能源,特别是风能和太阳能的日益普及,给电力系统带来了独特的复杂性,特别是在频率和电压调节方面。目前的电网规范不足以应对这些新兴的动态,需要进行重大改进以应对不断变化的能源格局。本文强调了几个关键的改进领域,包括电力系统内灵活性的提高、储能系统的集成、辅助服务的扩展、并网逆变器的纳入以及电网代码的国际协调。该研究强调,主要依赖于传统发电厂的传统电力系统方法无法有效地管理可再生能源波动的供需动态。通过提出网格代码的改进,本研究有助于解决这一问题。此外,本文强调了网格代码的国际协调对于系统互操作性、高效运行和跨不同地区最佳实践的交流至关重要。通过其详尽的探索和建议,该研究授权决策者、电网运营商和能源生产商推进电网代码框架。因此,这促进了可再生能源的整合,确保了电网的稳定性,并为更可持续的能源未来铺平了道路。& lt; / abstract>
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Challenges of existing grid codes and the call for enhanced standards

The escalating penetration of renewable energy, notably wind and solar, introduces unique complexities into power systems, particularly in frequency and voltage regulation. Current grid codes are inadequate for these emerging dynamics, necessitating significant enhancements to cope with the evolving energy landscape. The paper highlights several pivotal areas of improvement, including increased flexibility within power systems, integration of energy storage systems, expansion of ancillary services, the inclusion of grid-forming inverters, and the international harmonization of grid codes. The research underscores that conventional power system methodologies, primarily reliant on traditional power plants, fail to manage the fluctuating supply-demand dynamics of renewable energy effectively. By proposing improvements in grid codes, the research contributes towards resolving this issue. Furthermore, the paper underlines the paramount importance of international harmonization of grid codes for system interoperability, efficient operation, and exchange of best practices across diverse regions. Through its exhaustive exploration and recommendations, the study empowers policymakers, grid operators, and energy producers to advance grid code frameworks. Consequently, this facilitates renewable energy integration, ensures grid stability, and paves the way for a more sustainable energy future.

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