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.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Fast Frequency Response Provision from Large-Scale Hydrogen Electrolyzers Considering Stack Voltage-Current Nonlinearity
Mehdi Ghazavi Dozein ... Pierluigi Mancarella
-
Mehdi Ghazavi Dozein, et. al.Mehdi Ghazavi Dozein ... Pierluigi Mancarella
28 Jun 2021
Fast frequency response constrained electric vehicle scheduling for low inertia power systems
Priyanka Kushwaha ... Rohit Bhakar
Journal of Energy Storage | VOL. 62
Priyanka Kushwaha, et. al.Priyanka Kushwaha ... Rohit Bhakar
26 Feb 2023
Research on Fast Frequency Response Control Strategy of Hydrogen Production Systems
Tao Shi ... Zeyan Xu
Electronics | VOL. 13
Tao Shi, et. al.Tao Shi ... Zeyan Xu
01 Mar 2024
An Efficient Primal-Dual Interior-Point Algorithm for Volt/VAR Optimization in Rectangular Voltage Coordinates
H Mataifa ... C Kriger
IEEE Access | VOL. 11
H Mataifa, et. al.H Mataifa ... C Kriger
01 Jan 2023
View more papers

More From: IEEE Transactions on Sustainable Energy

Paper Title
Journal
Date
Author
An Adaptive Controller of a Hybrid Storage System for Power Smoothing With Enlarged Battery Lifetime
Pavlos G Papageorgiou ... Panagiotis T Papafilippou
IEEE Transactions on Sustainable Energy | VOL. -
Pavlos G Papageorgiou, et. al.Pavlos G Papageorgiou ... Panagiotis T Papafilippou
01 Oct 2024
Deriving Sufficient Conditions for Exact Relaxation of Complementarity Constraints in Optimization Problems With Energy Storage
Hongyuan Liang ... Jisong Zhu
IEEE Transactions on Sustainable Energy | VOL. 15
Hongyuan Liang, et. al.Hongyuan Liang ... Jisong Zhu
01 Oct 2024
Deep Learning-Based Failure Prognostic Model for PV Inverter Using Field Measurements
Liming Liu ... Rajarshi Roychowdhury
IEEE Transactions on Sustainable Energy | VOL. 15
Liming Liu, et. al.Liming Liu ... Rajarshi Roychowdhury
01 Oct 2024
Data-Driven Multistage Distribuionally Robust Programming to Hydrothermal Economic Dispatch With Renewable Energy Sources
Xiaosheng Zhang ... Yang Xiao
IEEE Transactions on Sustainable Energy | VOL. 15
Xiaosheng Zhang, et. al.Xiaosheng Zhang ... Yang Xiao
01 Oct 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.