基于供应的可重构反馈控制,提高空调系统的能源灵活性,促进电网互动式建筑的发展

IF 13 Q1 ENERGY & FUELS
Mingkun Dai , Hangxin Li , Xiuming Li , Shengwei Wang
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引用次数: 0

摘要

空调系统耗电量大,且本身具有能源灵活性,因此在为可再生能源渗透率高的电网提供能源灵活性服务方面具有巨大潜力。通过关闭某些运行中的冷却器来进行直接负荷控制,是楼宇空调系统响应电网紧急电力削减要求的最简单有效的方法。然而,在广泛采用基于需求的反馈控制的当今建筑中实施这种方法会导致严重的问题,包括冷却分布紊乱和可能的额外能源消耗。因此,本研究提出了一种可重新配置的控制策略来解决这些问题。该策略由基于供给的反馈控制、与传统的基于需求的反馈控制相结合的控制回路重新配置方案和设定点重置方案组成,有助于在有限的冷却供给下进行有效控制,并实现基于供给和基于需求的反馈控制模式之间的平稳过渡。在一个常用的数字控制器中采用了所提出的控制策略,对涉及六个 AHU 的空调系统进行了硬件在环控制测试。测试结果表明,可重构控制实现了值得称赞的控制性能。在需求响应和反弹期间,适当的冷冻水分配实现了楼宇区域间均匀的热舒适度控制。楼宇区域的温度偏差大部分时间都控制在 0.2 K 以下。与使用传统控制相比,在需求响应期和回弹期,使用建议的可重构控制可分别减少 11.6% 和 27% 的电力需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reconfigurable supply-based feedback control for enhanced energy flexibility of air-conditioning systems facilitating grid-interactive buildings

Air-conditioning systems have great potential to provide energy flexibility services to the power grids of high-renewable penetration, due to their high power consumption and inherent energy flexibilities. Direct load control by switching off some operating chillers is the simplest and effective means for air-conditioning systems in buildings to respond to urgent power reduction requests of power grids. However, the implementation of this approach in today's buildings, which widely adopt demand-based feedback controls, would result in serious problems including disordered cooling distribution and likely extra energy consumption. This study, therefore, proposes a reconfigurable control strategy to address these problems. This strategy consists of supply-based feedback control, incorporated with the conventional demand-based feedback control, a control loop reconfiguration scheme and a setpoint reset scheme, facilitating effective control under limited cooling supply and smooth transition between supply-based and demand-based feedback control modes. The proposed control strategy is deployed in a commonly-used digital controller to conduct hardware-in-the-loop control tests on an air-conditioning system involving six AHUs. Test results show that the reconfigurable control achieves commendable control performance. Proper chilled water distribution enables even thermal comfort control among the building zones during demand response and rebound periods. Temperature deviation of the building zones is controlled below 0.2 K most of the time. 11.6 % and 27 % of power demand reductions are achieved during demand response and rebound periods respectively, using the proposed reconfigurable control compared with that using conventional controls.

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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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