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Enabling LVRT Compliance of Electrolyzer Systems Using Energy Storage Technologies

Pankaj Saha, Weihao Zhao, Daniel‐Ioan Stroe, Florin Iov, Stig Munk‐Nielsen

2023Batteries12 citationsDOIOpen Access PDF

Abstract

This paper presents a comprehensive techno-economic analysis of different energy storage systems (ESSs) in providing low-voltage ride-through (LVRT) support for power electronics-based electrolyzer systems. A framework for analyzing the performance of a grid-integrated electrolyzer-ESS system is developed, taking into account realistic scenarios and accurate models. The system components consist of a 500 kW alkaline electrolyzer module integrated with a medium-voltage grid and three different commercially available ESSs based on Li-ion battery, Li-ion capacitor, and supercapacitor technology, respectively. The performance of these ESSs is extensively studied for three LVRT profiles, with a primary focus on the upcoming Danish grid code. In order to perform simulation studies, the system is implemented on the MATLAB®/Simulink®-PLECS® platform. The results demonstrate that all three energy storage technologies are capable of supporting the electrolyzer systems during low-voltage abnormalities in the distribution grid. The study also reveals that the supercapacitor-based technology seems to be more appropriate, from a techno-economic perspective, for fault ride-through (FRT) compliance.

Topics & Concepts

Energy storageComputer scienceAutomotive engineeringBattery (electricity)SupercapacitorLow voltage ride throughGridVoltageElectrical engineeringPower (physics)Low voltageEngineeringChemistryElectrochemistryQuantum mechanicsGeometryMathematicsElectrodePhysicsPhysical chemistryElectric Vehicles and InfrastructureAdvanced Battery Technologies ResearchHybrid Renewable Energy Systems
Enabling LVRT Compliance of Electrolyzer Systems Using Energy Storage Technologies | Litcius