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Main Authors: Wong, Choon-Jie, Larkin, Adam A., Bao, Jie, Skyllas-Kazacos, Maria, Welch, Barry J., Ahli, Nadia, Faraj, Maitha, Mahmoud, Mohamed
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.07893
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author Wong, Choon-Jie
Larkin, Adam A.
Bao, Jie
Skyllas-Kazacos, Maria
Welch, Barry J.
Ahli, Nadia
Faraj, Maitha
Mahmoud, Mohamed
author_facet Wong, Choon-Jie
Larkin, Adam A.
Bao, Jie
Skyllas-Kazacos, Maria
Welch, Barry J.
Ahli, Nadia
Faraj, Maitha
Mahmoud, Mohamed
contents Aluminium is manufactured through the Hall-Héroult process, which is very energy intensive. Power modulation, as an industrial-scale demand-side power management approach, allows aluminium smelters to operate with variable power consumption rates and as such be powered by renewable energy sources. In this way, aluminium smelting cells can be used as a large virtual energy storage to balance power demand-supply and stabilise electrical grids. This paper studies the potential optimal power modulation operating conditions, including time-varying line current and anode-cathode distance (ACD) profiles to maximise the aluminium reduction cell profitability subject to constraints on the cell thermal balance. To deal with the complex cell dynamics which are spatially distributed and multi-timescale, a novel optimisation approach that utilises both reduced-order and detailed models is developed. The results yield insight into the optimal line current and ACD profiles for different power modulation scenarios including the time of use electricity tariff and spot price. These results can form the foundation for further studies into online control policies of aluminium reduction cells.
format Preprint
id arxiv_https___arxiv_org_abs_2511_07893
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optimisation of Power Modulation for Hall-Héroult Cells: Process Operability and Constraints as Virtual Energy Storage
Wong, Choon-Jie
Larkin, Adam A.
Bao, Jie
Skyllas-Kazacos, Maria
Welch, Barry J.
Ahli, Nadia
Faraj, Maitha
Mahmoud, Mohamed
Systems and Control
Aluminium is manufactured through the Hall-Héroult process, which is very energy intensive. Power modulation, as an industrial-scale demand-side power management approach, allows aluminium smelters to operate with variable power consumption rates and as such be powered by renewable energy sources. In this way, aluminium smelting cells can be used as a large virtual energy storage to balance power demand-supply and stabilise electrical grids. This paper studies the potential optimal power modulation operating conditions, including time-varying line current and anode-cathode distance (ACD) profiles to maximise the aluminium reduction cell profitability subject to constraints on the cell thermal balance. To deal with the complex cell dynamics which are spatially distributed and multi-timescale, a novel optimisation approach that utilises both reduced-order and detailed models is developed. The results yield insight into the optimal line current and ACD profiles for different power modulation scenarios including the time of use electricity tariff and spot price. These results can form the foundation for further studies into online control policies of aluminium reduction cells.
title Optimisation of Power Modulation for Hall-Héroult Cells: Process Operability and Constraints as Virtual Energy Storage
topic Systems and Control
url https://arxiv.org/abs/2511.07893