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Perspective on Industrial Electrification and Utility Scale PV in the Arctic Region

Asplund, Anton and Nilsson, Lars J. LU orcid (2024) In International Journal of Sustainable Energy Planning and Management 41. p.34-44
Abstract

Two concurrent trends may fundamentally change how we understand the role of solar PV at high latitudes. Until now, relatively low annual insolation in combination with low electricity demand during the summer months has not favoured PV in the Arctic. However, continued decreases in costs for PVs in combination with increasing electricity demand from industrial electrification is quickly changing the situation. Net-zero climate targets necessitates industrial decarbonisation and low-cost electricity from solar and wind facilitates emission reductions through electrification and hydrogen. While research on PV in the Arctic so far has focused on off-grid and community scale systems, in this perspective article we explore the prospects for... (More)

Two concurrent trends may fundamentally change how we understand the role of solar PV at high latitudes. Until now, relatively low annual insolation in combination with low electricity demand during the summer months has not favoured PV in the Arctic. However, continued decreases in costs for PVs in combination with increasing electricity demand from industrial electrification is quickly changing the situation. Net-zero climate targets necessitates industrial decarbonisation and low-cost electricity from solar and wind facilitates emission reductions through electrification and hydrogen. While research on PV in the Arctic so far has focused on off-grid and community scale systems, in this perspective article we explore the prospects for utility scale PV in Northern Scandinavia. Research usually identifies regions endowed with rich sun and wind resources at lower latitudes as promising locations for electricity intensive industries. We calculate the levelized-cost-of-electricity for utility scale PV to be 51 EUR/MWh based on recent data and this cost is likely to be below 35 EUR/MWh before 2030 considering the projected continued reduction of the levelized cost of electricity for PV. This makes utility scale PV a highly viable future option to complement wind and hydro in meeting the very large forecasted future electricity demands from the steel industry, data centres, and power-to-X production above the Arctic circle from 2030 and onwards.

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author
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organization
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type
Contribution to journal
publication status
published
subject
keywords
Industrial electrification in Northern Scandinavia, LCOE PV, PV in Arctic, Utility scale PV at high latitudes
in
International Journal of Sustainable Energy Planning and Management
volume
41
pages
11 pages
publisher
Aalborg Universitetsforlag
external identifiers
  • scopus:85197341060
ISSN
2246-2929
DOI
10.54337/ijsepm.8180
language
English
LU publication?
yes
id
fa946987-f90b-45bf-83e5-2f89c0258071
date added to LUP
2024-10-14 14:19:22
date last changed
2025-04-04 14:00:09
@article{fa946987-f90b-45bf-83e5-2f89c0258071,
  abstract     = {{<p>Two concurrent trends may fundamentally change how we understand the role of solar PV at high latitudes. Until now, relatively low annual insolation in combination with low electricity demand during the summer months has not favoured PV in the Arctic. However, continued decreases in costs for PVs in combination with increasing electricity demand from industrial electrification is quickly changing the situation. Net-zero climate targets necessitates industrial decarbonisation and low-cost electricity from solar and wind facilitates emission reductions through electrification and hydrogen. While research on PV in the Arctic so far has focused on off-grid and community scale systems, in this perspective article we explore the prospects for utility scale PV in Northern Scandinavia. Research usually identifies regions endowed with rich sun and wind resources at lower latitudes as promising locations for electricity intensive industries. We calculate the levelized-cost-of-electricity for utility scale PV to be 51 EUR/MWh based on recent data and this cost is likely to be below 35 EUR/MWh before 2030 considering the projected continued reduction of the levelized cost of electricity for PV. This makes utility scale PV a highly viable future option to complement wind and hydro in meeting the very large forecasted future electricity demands from the steel industry, data centres, and power-to-X production above the Arctic circle from 2030 and onwards.</p>}},
  author       = {{Asplund, Anton and Nilsson, Lars J.}},
  issn         = {{2246-2929}},
  keywords     = {{Industrial electrification in Northern Scandinavia; LCOE PV; PV in Arctic; Utility scale PV at high latitudes}},
  language     = {{eng}},
  pages        = {{34--44}},
  publisher    = {{Aalborg Universitetsforlag}},
  series       = {{International Journal of Sustainable Energy Planning and Management}},
  title        = {{Perspective on Industrial Electrification and Utility Scale PV in the Arctic Region}},
  url          = {{http://dx.doi.org/10.54337/ijsepm.8180}},
  doi          = {{10.54337/ijsepm.8180}},
  volume       = {{41}},
  year         = {{2024}},
}