Evaluation of Various Flexibility Resources in Power Systems

Emir Kaan TUTUŞ, Nevzat ONAT
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Abstract

Variable Renewable Energy Resources (VRES), especially wind and solar power, are known for their intermittent, uncertain, and low-energy-density nature. The increasing adoption of these stochastic sources presents irregularity in the net load in the power system network; therefore, it poses a challenge to the reliable operation of power systems. Consequently, there's an increasing need for power system flexibility to cope with VRES-related challenges. Flexibility planning will therefore be a crucial aspect for power system management, particularly as the penetration of VRES continues to rise. To reach this objective, the diversification of flexibility options emerges as a promising solution. Various strategies are prominent in the literature for enhancing power system flexibility to adapt to VRES variability. These include the utilization of flexible generators, adjusting load profiles through demand-side management, integrating energy storage systems and electric vehicle batteries, developing grid infrastructure, using surplus energy for various daily applications (e.g., heating), and the implementing of curtailment practices. Demand-side management and energy storage, for example, offer valuable flexibility by allowing consumers to adjust their consumption patterns to electricity supply and demand fluctuations. Additionally, flexible generation technologies like gas turbines and combined heat and power systems provide rapid responses, aiding grid balance during high VRES output variability periods. Overall, this paper provides an overview of power system flexibility, exploring the various flexibility resources available to VRES-related challenges. Finally, this paper emphasizes the importance of continued innovation in developing new flexibility solutions to meet the growing demand for sustainable and reliable power systems.
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电力系统中各种柔性资源的评价
可变可再生能源(VRES),特别是风能和太阳能,以其间歇性、不确定性和低能量密度而闻名。随着这些随机源的采用越来越多,电网的净负荷呈现出不规则性;因此,对电力系统的可靠运行提出了挑战。因此,越来越需要电力系统的灵活性来应对vres相关的挑战。因此,灵活性规划将成为电力系统管理的一个关键方面,特别是随着VRES的不断普及。为了实现这一目标,灵活性选择的多样化成为一个有希望的解决方案。为了提高电力系统的灵活性以适应VRES的可变性,各种策略在文献中都很突出。这些措施包括利用灵活发电机,通过需求侧管理调整负荷概况,整合能源储存系统和电动汽车电池,发展电网基础设施,将剩余能源用于各种日常应用(例如供暖),以及实施削减做法。例如,需求侧管理和能源储存提供了宝贵的灵活性,允许消费者根据电力供应和需求波动调整其消费模式。此外,灵活的发电技术,如燃气轮机和热电联产系统,提供快速响应,帮助电网在高VRES输出变化期间保持平衡。总体而言,本文概述了电力系统的灵活性,探讨了可用于vres相关挑战的各种灵活性资源。最后,本文强调了在开发新的灵活性解决方案方面不断创新的重要性,以满足对可持续和可靠的电力系统日益增长的需求。
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