Modeling ambient airflow in the aluminum electrolysis cell superstructure

This project concerns the development of a rudimentary CFD model for the ambient airflow inside of the aluminum electrolysis cells at the Icelandic aluminum smelter Norðurál. Research efforts are currently being made in the Icelandic aluminum industry to dramatically decrease the associated CO2 emis...

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Bibliographic Details
Main Author: Sarah Elizabeth DiBenedetto 1997-
Other Authors: Háskólinn í Reykjavík
Format: Thesis
Language:English
Published: 2021
Subjects:
Orkuvísindi
Meistaraprófsritgerðir
Álframleiðsla
Hermilíkön
Rafgreining
Andrúmsloft
Kolefnisjöfnun
Sustainable energy
Aluminum industry
Simulation models
Electrolysis
Air
Carbon offsetting
Iceland
Online Access:http://hdl.handle.net/1946/39489
id ftskemman:oai:skemman.is:1946/39489
record_format openpolar
spelling ftskemman:oai:skemman.is:1946/39489 2023-05-15T16:52:53+02:00 Modeling ambient airflow in the aluminum electrolysis cell superstructure Sarah Elizabeth DiBenedetto 1997- Háskólinn í Reykjavík 2021-06 application/pdf http://hdl.handle.net/1946/39489 en eng http://hdl.handle.net/1946/39489 Orkuvísindi Meistaraprófsritgerðir Álframleiðsla Hermilíkön Rafgreining Andrúmsloft Kolefnisjöfnun Sustainable energy Aluminum industry Simulation models Electrolysis Air Carbon offsetting Thesis Master's 2021 ftskemman 2022-12-11T06:58:43Z This project concerns the development of a rudimentary CFD model for the ambient airflow inside of the aluminum electrolysis cells at the Icelandic aluminum smelter Norðurál. Research efforts are currently being made in the Icelandic aluminum industry to dramatically decrease the associated CO2 emissions and eventually become carbon neutral. One suggested method for emissions reduction is the utilization of geologic carbon capture and sequestration in the basalt rock, which can be throughout Iceland. In order to operate carbon capture at the aluminum smelter, the concentration of carbon dioxide in the cell effluents needs to be increased from the current value of 1 vol % to 4 vol %. This may be done through modifications of the cell superstructure and through adjusting the draft rate of ambient air through the cell. The electrochemical production of aluminum operates at very high temperatures, and the heat balance of the cell must be maintained. CFD modeling of the top cell is a crucial component in understanding the heat balance of the cell and the effects of operational changes on the heat balance. Over half of the heat loss in the cell occurs through the superstructure, and the majority of these losses are through the exhaust gas. The model presented in this study was used to establish the effect of cell draft rate on the pressure drop inside of the cell and the exhaust gas temperature. The results from the model show that utilizing a pressure outlet is satisfactory for controlling the simulated cell draft rate and mass flow rate through the cell. A mass flow outlet was used to determine the relationship between the exhaust temperature and the cell draft rate. Comparisons between the simulation scenarios and literature are provided as well as recommendations for future development of the CFD model. Í þessu verkefni var þróað CFD líkan fyrir loftstreymi og afsog inni í yfirbyggingu ál rafgreiningarkerja álvers Norðuráls á Grundartanga. Verkefnið er liður í rannsókna- og þróunarátaki íslensks áliðnaðar til að ... Thesis Iceland Skemman (Iceland)
institution Open Polar
collection Skemman (Iceland)
op_collection_id ftskemman
language English
topic Orkuvísindi
Meistaraprófsritgerðir
Álframleiðsla
Hermilíkön
Rafgreining
Andrúmsloft
Kolefnisjöfnun
Sustainable energy
Aluminum industry
Simulation models
Electrolysis
Air
Carbon offsetting
spellingShingle Orkuvísindi
Meistaraprófsritgerðir
Álframleiðsla
Hermilíkön
Rafgreining
Andrúmsloft
Kolefnisjöfnun
Sustainable energy
Aluminum industry
Simulation models
Electrolysis
Air
Carbon offsetting
Sarah Elizabeth DiBenedetto 1997-
Modeling ambient airflow in the aluminum electrolysis cell superstructure
topic_facet Orkuvísindi
Meistaraprófsritgerðir
Álframleiðsla
Hermilíkön
Rafgreining
Andrúmsloft
Kolefnisjöfnun
Sustainable energy
Aluminum industry
Simulation models
Electrolysis
Air
Carbon offsetting
description This project concerns the development of a rudimentary CFD model for the ambient airflow inside of the aluminum electrolysis cells at the Icelandic aluminum smelter Norðurál. Research efforts are currently being made in the Icelandic aluminum industry to dramatically decrease the associated CO2 emissions and eventually become carbon neutral. One suggested method for emissions reduction is the utilization of geologic carbon capture and sequestration in the basalt rock, which can be throughout Iceland. In order to operate carbon capture at the aluminum smelter, the concentration of carbon dioxide in the cell effluents needs to be increased from the current value of 1 vol % to 4 vol %. This may be done through modifications of the cell superstructure and through adjusting the draft rate of ambient air through the cell. The electrochemical production of aluminum operates at very high temperatures, and the heat balance of the cell must be maintained. CFD modeling of the top cell is a crucial component in understanding the heat balance of the cell and the effects of operational changes on the heat balance. Over half of the heat loss in the cell occurs through the superstructure, and the majority of these losses are through the exhaust gas. The model presented in this study was used to establish the effect of cell draft rate on the pressure drop inside of the cell and the exhaust gas temperature. The results from the model show that utilizing a pressure outlet is satisfactory for controlling the simulated cell draft rate and mass flow rate through the cell. A mass flow outlet was used to determine the relationship between the exhaust temperature and the cell draft rate. Comparisons between the simulation scenarios and literature are provided as well as recommendations for future development of the CFD model. Í þessu verkefni var þróað CFD líkan fyrir loftstreymi og afsog inni í yfirbyggingu ál rafgreiningarkerja álvers Norðuráls á Grundartanga. Verkefnið er liður í rannsókna- og þróunarátaki íslensks áliðnaðar til að ...
author2 Háskólinn í Reykjavík
format Thesis
author Sarah Elizabeth DiBenedetto 1997-
author_facet Sarah Elizabeth DiBenedetto 1997-
author_sort Sarah Elizabeth DiBenedetto 1997-
title Modeling ambient airflow in the aluminum electrolysis cell superstructure
title_short Modeling ambient airflow in the aluminum electrolysis cell superstructure
title_full Modeling ambient airflow in the aluminum electrolysis cell superstructure
title_fullStr Modeling ambient airflow in the aluminum electrolysis cell superstructure
title_full_unstemmed Modeling ambient airflow in the aluminum electrolysis cell superstructure
title_sort modeling ambient airflow in the aluminum electrolysis cell superstructure
publishDate 2021
url http://hdl.handle.net/1946/39489
genre Iceland
genre_facet Iceland
op_relation http://hdl.handle.net/1946/39489
_version_ 1766043359488507904

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