Increasing electrical reserve provision in districts by exploiting energy flexibility of buildings with robust model predictive control

IF 13 Q1 ENERGY & FUELS
Felix Bünning , Philipp Heer , Roy S. Smith , John Lygeros
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引用次数: 3

Abstract

Due to their thermal inertia, buildings equipped with electric heating and cooling systems can help to stabilize the electricity grid by shifting their load in time, and can thus facilitate energy flexible urban energy systems with the right control system in place. Because of minimum capacity requirements, they can often only participate in demand response schemes, such as secondary frequency reserves through aggregation. Such an aggregation could also take the form of entire district heating and cooling systems with connected buildings that are supplied by large-scale heat pumps and chillers. However, there is a lack of studies investigating the control of such configurations, both in simulation and in application. We present a two-level control scheme based on robust Model Predictive Control with affine policies to offer frequency reserves with a district system, where we exploit the thermal inertia of buffer storage tanks and a subset of the connected buildings. We leverage data-driven model generation methods to overcome the bottleneck of physics-based building modeling. In a numerical case study based on one-year historical data of a real system, we compare the approach to a situation where only the buffer storage is used for flexibility and demonstrate that the reserves offered increase substantially if the inertia of a subset of the connected buildings is also exploited. Furthermore, we validate the control approach in a first-of-its-kind experiment on the actual system, where we show that reserves can be offered by the district system without compromising the comfort in the connected buildings.

利用鲁棒模型预测控制,利用建筑物的能源灵活性,增加地区电力储备
由于其热惯性,配备电加热和冷却系统的建筑物可以通过及时转移负荷来帮助稳定电网,从而可以通过适当的控制系统促进能源灵活的城市能源系统。由于容量要求最低,它们通常只能参与需求响应方案,例如通过聚合的二次频率储备。这种集合体也可以采用整个区域供热和制冷系统的形式,由大型热泵和冷却器提供连接的建筑物。然而,无论是在模拟还是在应用中,都缺乏对这种结构控制的研究。我们提出了一种基于鲁棒模型预测控制和仿射策略的两级控制方案,在该方案中,我们利用缓冲储罐和连接建筑物子集的热惯性,为区域系统提供频率储备。我们利用数据驱动的模型生成方法来克服基于物理的建筑建模的瓶颈。在基于实际系统一年历史数据的数值案例研究中,我们将该方法与仅使用缓冲存储来实现灵活性的情况进行了比较,并证明如果也利用了连接建筑物子集的惯性,则提供的储备将大大增加。此外,我们在实际系统的首次实验中验证了控制方法,我们证明了区域系统可以在不影响连接建筑物舒适度的情况下提供储备。
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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来源期刊
Advances in Applied Energy
Advances in Applied Energy Energy-General Energy
CiteScore
23.90
自引率
0.00%
发文量
36
审稿时长
21 days
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