The socio-technical dynamics of net-zero industrial megaprojects: Outside-in and inside-out analyses of the Humber industrial cluster

Frank W. Geels; Benjamin K. Sovacool; Marfuga Iskandarova

doi:10.1016/j.erss.2023.103003

The socio-technical dynamics of net-zero industrial megaprojects: Outside-in and inside-out analyses of the Humber industrial cluster

Frank W. Geels^*, Benjamin K. Sovacool, Marfuga Iskandarova

^*Corresponding author af dette arbejde

Institut for Forretningsudvikling og Teknologi

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

31 Citationer (Scopus)

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Abstract

Although energy-intensive industries are often seen as ‘hard-to-decarbonise’, net-zero megaprojects for industrial clusters promise to improve the technical and economic feasibility of hydrogen fuel switching and carbon capture and storage (CCS). Mobilising insights from the megaproject literature, this paper analyses the dynamics of an ambitious first-of-kind net-zero megaproject in the Humber industrial cluster in the United Kingdom, which includes CCS and hydrogen infrastructure systems, industrial fuel switching, CO₂ capture, green and blue hydrogen production, and hydrogen storage. To analyse the dynamics of this emerging megaproject, the article uses a socio-technical system lens to focus on developments in technology, actors, and institutions. Synthesising multiple megaproject literature insights, the paper develops a comprehensive framework that addresses both aggregate (‘outside-in’) developments and the endogenous (‘inside-out’) experiences and activities regarding three specific challenges: technical system integration, actor coordination, and institutional alignment. Drawing on an original dataset involving expert interviews (N = 46), site visits (N = 7), and document analysis, the ‘outside-in’ analysis finds that the Humber megaproject has progressed rapidly from outline visions to specific technical designs, enacted by new coalitions and driven by strengthening policy targets and financial support schemes. The complementary ‘inside-out’ analysis, however, also finds 12 alignment challenges that can delay or derail materialisation of the plans. While policies are essential aggregate drivers, institutional misalignments presently also prevent project-actors from finalising design and investment decisions. Our analysis also finds important tensions between the project's high-pace delivery focus (to meet government targets) and allowing sufficient time for pilot projects, learning-by-doing, and design iterations.

Originalsprog	Engelsk
Artikelnummer	103003
Tidsskrift	Energy Research and Social Science
Vol/bind	98
ISSN	2214-6296
DOI	https://doi.org/10.1016/j.erss.2023.103003
Status	Udgivet - apr. 2023

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10.1016/j.erss.2023.103003Licens: CC BY

The socio-technical dynamics of net-zero industrial megaprojects Outside-in and inside-out analyses of the Humber industrial cluster_Publishers_version_2023Forlagets udgivne version, 5,85 MBLicens: CC BY

Citationsformater

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abstract = "Although energy-intensive industries are often seen as {\textquoteleft}hard-to-decarbonise{\textquoteright}, net-zero megaprojects for industrial clusters promise to improve the technical and economic feasibility of hydrogen fuel switching and carbon capture and storage (CCS). Mobilising insights from the megaproject literature, this paper analyses the dynamics of an ambitious first-of-kind net-zero megaproject in the Humber industrial cluster in the United Kingdom, which includes CCS and hydrogen infrastructure systems, industrial fuel switching, CO2 capture, green and blue hydrogen production, and hydrogen storage. To analyse the dynamics of this emerging megaproject, the article uses a socio-technical system lens to focus on developments in technology, actors, and institutions. Synthesising multiple megaproject literature insights, the paper develops a comprehensive framework that addresses both aggregate ({\textquoteleft}outside-in{\textquoteright}) developments and the endogenous ({\textquoteleft}inside-out{\textquoteright}) experiences and activities regarding three specific challenges: technical system integration, actor coordination, and institutional alignment. Drawing on an original dataset involving expert interviews (N = 46), site visits (N = 7), and document analysis, the {\textquoteleft}outside-in{\textquoteright} analysis finds that the Humber megaproject has progressed rapidly from outline visions to specific technical designs, enacted by new coalitions and driven by strengthening policy targets and financial support schemes. The complementary {\textquoteleft}inside-out{\textquoteright} analysis, however, also finds 12 alignment challenges that can delay or derail materialisation of the plans. While policies are essential aggregate drivers, institutional misalignments presently also prevent project-actors from finalising design and investment decisions. Our analysis also finds important tensions between the project's high-pace delivery focus (to meet government targets) and allowing sufficient time for pilot projects, learning-by-doing, and design iterations.",

keywords = "Carbon capture and storage, Hydrogen, Industrial decarbonisation, Megaprojects, Net zero clusters, Socio-technical system",

author = "Geels, {Frank W.} and Sovacool, {Benjamin K.} and Marfuga Iskandarova",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",

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The socio-technical dynamics of net-zero industrial megaprojects: Outside-in and inside-out analyses of the Humber industrial cluster. / Geels, Frank W.; Sovacool, Benjamin K.; Iskandarova, Marfuga.
I: Energy Research and Social Science, Bind 98, 103003, 04.2023.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

TY - JOUR

T1 - The socio-technical dynamics of net-zero industrial megaprojects

T2 - Outside-in and inside-out analyses of the Humber industrial cluster

AU - Geels, Frank W.

AU - Sovacool, Benjamin K.

AU - Iskandarova, Marfuga

PY - 2023/4

Y1 - 2023/4

N2 - Although energy-intensive industries are often seen as ‘hard-to-decarbonise’, net-zero megaprojects for industrial clusters promise to improve the technical and economic feasibility of hydrogen fuel switching and carbon capture and storage (CCS). Mobilising insights from the megaproject literature, this paper analyses the dynamics of an ambitious first-of-kind net-zero megaproject in the Humber industrial cluster in the United Kingdom, which includes CCS and hydrogen infrastructure systems, industrial fuel switching, CO2 capture, green and blue hydrogen production, and hydrogen storage. To analyse the dynamics of this emerging megaproject, the article uses a socio-technical system lens to focus on developments in technology, actors, and institutions. Synthesising multiple megaproject literature insights, the paper develops a comprehensive framework that addresses both aggregate (‘outside-in’) developments and the endogenous (‘inside-out’) experiences and activities regarding three specific challenges: technical system integration, actor coordination, and institutional alignment. Drawing on an original dataset involving expert interviews (N = 46), site visits (N = 7), and document analysis, the ‘outside-in’ analysis finds that the Humber megaproject has progressed rapidly from outline visions to specific technical designs, enacted by new coalitions and driven by strengthening policy targets and financial support schemes. The complementary ‘inside-out’ analysis, however, also finds 12 alignment challenges that can delay or derail materialisation of the plans. While policies are essential aggregate drivers, institutional misalignments presently also prevent project-actors from finalising design and investment decisions. Our analysis also finds important tensions between the project's high-pace delivery focus (to meet government targets) and allowing sufficient time for pilot projects, learning-by-doing, and design iterations.

AB - Although energy-intensive industries are often seen as ‘hard-to-decarbonise’, net-zero megaprojects for industrial clusters promise to improve the technical and economic feasibility of hydrogen fuel switching and carbon capture and storage (CCS). Mobilising insights from the megaproject literature, this paper analyses the dynamics of an ambitious first-of-kind net-zero megaproject in the Humber industrial cluster in the United Kingdom, which includes CCS and hydrogen infrastructure systems, industrial fuel switching, CO2 capture, green and blue hydrogen production, and hydrogen storage. To analyse the dynamics of this emerging megaproject, the article uses a socio-technical system lens to focus on developments in technology, actors, and institutions. Synthesising multiple megaproject literature insights, the paper develops a comprehensive framework that addresses both aggregate (‘outside-in’) developments and the endogenous (‘inside-out’) experiences and activities regarding three specific challenges: technical system integration, actor coordination, and institutional alignment. Drawing on an original dataset involving expert interviews (N = 46), site visits (N = 7), and document analysis, the ‘outside-in’ analysis finds that the Humber megaproject has progressed rapidly from outline visions to specific technical designs, enacted by new coalitions and driven by strengthening policy targets and financial support schemes. The complementary ‘inside-out’ analysis, however, also finds 12 alignment challenges that can delay or derail materialisation of the plans. While policies are essential aggregate drivers, institutional misalignments presently also prevent project-actors from finalising design and investment decisions. Our analysis also finds important tensions between the project's high-pace delivery focus (to meet government targets) and allowing sufficient time for pilot projects, learning-by-doing, and design iterations.

KW - Carbon capture and storage

KW - Hydrogen

KW - Industrial decarbonisation

KW - Megaprojects

KW - Net zero clusters

KW - Socio-technical system

U2 - 10.1016/j.erss.2023.103003

DO - 10.1016/j.erss.2023.103003

M3 - Journal article

AN - SCOPUS:85148674169

SN - 2214-6296

VL - 98

JO - Energy Research and Social Science

JF - Energy Research and Social Science

M1 - 103003

ER -

The socio-technical dynamics of net-zero industrial megaprojects: Outside-in and inside-out analyses of the Humber industrial cluster

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