Abstract

Off-grid multiple energy system (MES) has been regarded as a promising modality for future energy due to high efficiency, consumer adaptability and system independency. Nevertheless, balancing the supply and demand of multiple energy forms simultaneously raises challenges to the operation control due to the strong interactions, characteristic discrepancies and fluctuations among multiple types of energies. The advantages of off-grid MES may never unfold if the multiple energy conversion processes are not managed in a coordinated manner. To this end, this paper takes a typical off-grid combined heat and power generation MES as example to show the strong coupling and multi-timescale features of the MES. A multi-timescale distributed model predictive control (MDMPC) based coordinated controller is then developed to fully exploit the interactions between power and heat, upgrading the operating performance of the MES. Offset free tracking design is also fused in the MDMPC framework to attain more precise following of the load demands even in the presences of process disturbances. Simulation results show that the MDMPC can achieve superior control performance at electricity side while maintaining a high-standard thermal-side control. Discussions are then carried out to further identify the efficacy of the MDMPC under four representative energy consumption scenarios. This paper points to the new directions of using coordinated control strategies for the stable, efficient and flexible operation of modern multiple energy system towards low-carbon transition.

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