Litcius/Paper detail

Software-defined control of an emulated hydrogen energy storage for energy internet ecosystems

Ahmed M. Moustafa, Muhammad Bakr Abdelghany, Al-Shaimaa A. Younis, Mohammed Moness, Ahmed Al‐Durra, Josep M. Guerrero

2023International Journal of Hydrogen Energy29 citationsDOIOpen Access PDF

Abstract

The increasing heterogeneity and scalability of the Internet of everything, especially, the Energy Internet (EI), is a prompt for novel engineering paradigms. The current infrastructure of hardware technologies besides the available software stack is becoming obsolete for handling the advanced requirements of the smart energy ecosystem. Accordingly, software definitions of the Internet of Things (IoT) stack functions are gaining interest to provide more flexible and scalable implementations. This paper investigates a sophisticated softwarization explicit hybrid model predictive control strategy for energy storage facility systems through the accessor design pattern. This strategy is presumed to support and facilitate the integration of higher-level analytic and control functionalities within the IoT stack at edges and nodes. Simulation is conducted with the Ptolemy II software to evaluate the execution semantics of the proposed strategy. In addition, real-time experiments on a lab-scale hydraulic tank process with both abrupt and gradual commands test scenarios showed the efficiency and reliability of the accessor-based controllers for achieving the control objectives for the benchmark storage facility with an abstract implementation. The analysis shows that this process can serve as a benchmark to mimic the charge and discharge cycles of storage elements in EI ecosystems.

Topics & Concepts

Computer scienceScalabilityBenchmark (surveying)SoftwareThe InternetProcess (computing)Embedded systemDistributed computingSoftware engineeringDatabaseOperating systemGeodesyGeographyMicrogrid Control and OptimizationSmart Grid Energy ManagementEnergy Harvesting in Wireless Networks