Medium-Voltage Solid-State Transformer Design for Large-Scale H<sub>2</sub> Electrolyzers

Journal article (2024)

Authors

Z. Li DC systems, Energy conversion & Storage - EEMCS
R. Mirzadarani High Voltage Technology Group - EEMCS
M. Ghaffarian Niasar High Voltage Technology Group - EEMCS
M. Itraj Vonk
P. Bauer DC systems, Energy conversion & Storage - EEMCS
Z. Qin DC systems, Energy conversion & Storage - EEMCS
Research Group
DC systems, Energy conversion & Storage (EEMCS) (TU Delft)
Topology Insulation Medium voltage Frequency conversion Rectifiers Power transformer insulation Bridge circuits Hydrogen Electrolyzer Input-Series-Output-Parallel Modular Multi-level Converter Solid-State Transformer
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Published Date

2024

Language

English

Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Electrical Sustainable Energy

Research Group

DC systems, Energy conversion & Storage

Abstract

In the production of green hydrogen, electrolyzers draw power from renewable energy sources. In this paper, the design of Solid State Transformer (SST) for large-scale H
2 electrolyzers is benchmarked. The three most promising topologies are chosen for design and comparison, including Modular Multi-level Converter (MMC) based SST, Modular Multi-level Resonant (MMR) based SST, and Input-Series-Output-Parallel (ISOP) based SST. The distance between converter towers for insulation and maintenance, the insulation system of the transformer, and the cooling system are designed with practical considerations in order to have an accurate estimation of the volume and weight of the SST. Losses in the switches are calculated based on equations, and losses in passive components are calculated based on FEM simulation. The operating frequency for each topology is optimized to minimize loss, weight, and volume. The best of each topology is then compared with each other to identify the most suitable one for large-scale H
2 electrolyzers.