Litcius/Paper detail

Fast Frequency Response From Utility-Scale Hydrogen Electrolyzers

Mehdi Ghazavi Dozein, Ahvand Jalali, Pierluigi Mancarella

2021IEEE Transactions on Sustainable Energy133 citationsDOI

Abstract

This paper introduces the modelling foundations to study the fast frequency response (FFR) from utility-scale hydrogen electrolyzers (HEs). Specifically, we propose a dynamic model of the HE electrolysis stack, power-electronics interface, and downstream hydrogen process operational constraints, which is suitable for system-level frequency dynamics studies. We then model and study HE FFR dependency on pre-contingency operating point, size, converter's overloading capability, network location, and active power-frequency controller. Different case studies are run on the Australian multi-area test system via dynamic simulations of a 2030 scenario with 50% renewables and in the context of the August 2018 separation event. Our modelling and results illustrate how grid-scale HEs could support a more secure and resilient operation of low-carbon systems for both credible and extreme outages and the role of different design setups and operating conditions and constraints.

Topics & Concepts

Context (archaeology)Automatic frequency controlComputer scienceElectric power systemOperating pointReliability engineeringController (irrigation)GridFrequency gridSynchronization (alternating current)Control engineeringPower (physics)EngineeringElectrical engineeringVoltageTelecommunicationsPhysicsMathematicsPaleontologyChannel (broadcasting)BiologyAgronomyQuantum mechanicsGeometryAdvanced Battery Technologies ResearchHybrid Renewable Energy SystemsMicrogrid Control and Optimization