A socio-technical perspective on CCS innovation system dynamics in Norway
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A socio-technical perspective on CCS innovation system dynamics in Norway. / Steen, Markus; Andersen, Allan Dahl; Finstad, Jærgen; Hansen, Teis; Hanson, Jens; Jordal, Kristin; Mäkitie, Tuukka; Nordholm, Amber; Ryghaug, Marianne; Skjølsvold, Thomas Moe.
2022. Paper presented at International Conference on Greenhouse Gas Control Technologies, Lyon, France.Research output: Contribution to conference › Paper › Research
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T1 - A socio-technical perspective on CCS innovation system dynamics in Norway
AU - Steen, Markus
AU - Andersen, Allan Dahl
AU - Finstad, Jærgen
AU - Hansen, Teis
AU - Hanson, Jens
AU - Jordal, Kristin
AU - Mäkitie, Tuukka
AU - Nordholm, Amber
AU - Ryghaug, Marianne
AU - Skjølsvold, Thomas Moe
N1 - Conference code: 16
PY - 2022
Y1 - 2022
N2 - CO2 capture and storage (CCS) is today seen as a key technology to cut carbon emissions in many of the hard-to-abate sectors such as energy-intensive process industries and the waste-to-energy sector. Although CO2 capture is technically possible, key challenges for realizing CCS persist. Over the past decade, CCS has entered a new phase with more focus on application in energy-intensive industries rather than the energy sector. For CCS value chains to materialize, innovation and implementation thus needs to occur amongst an array of actors, with different innovation modes, institutions, and policy regimes, and with varying sectoral capacities for adaptation and change. There has so far been limited social science research on CCS innovation dynamics, which we suggest approaching as a socio-technical change process. To better understand this process we draw on the sustainability transitions research field and employ the technological innovation system (TIS) framework to study the CCS innovation system in Norway. We find that, overall, the Norwegian CCS TIS displays systemic weaknesses for example in the form of market formation and resource mobilization, yet recent developments suggest a relatively positive momentum for this technological field which is key to meeting global climate mitigation targets.
AB - CO2 capture and storage (CCS) is today seen as a key technology to cut carbon emissions in many of the hard-to-abate sectors such as energy-intensive process industries and the waste-to-energy sector. Although CO2 capture is technically possible, key challenges for realizing CCS persist. Over the past decade, CCS has entered a new phase with more focus on application in energy-intensive industries rather than the energy sector. For CCS value chains to materialize, innovation and implementation thus needs to occur amongst an array of actors, with different innovation modes, institutions, and policy regimes, and with varying sectoral capacities for adaptation and change. There has so far been limited social science research on CCS innovation dynamics, which we suggest approaching as a socio-technical change process. To better understand this process we draw on the sustainability transitions research field and employ the technological innovation system (TIS) framework to study the CCS innovation system in Norway. We find that, overall, the Norwegian CCS TIS displays systemic weaknesses for example in the form of market formation and resource mobilization, yet recent developments suggest a relatively positive momentum for this technological field which is key to meeting global climate mitigation targets.
M3 - Paper
T2 - International Conference on Greenhouse Gas Control Technologies
Y2 - 23 October 2022 through 27 October 2022
ER -
ID: 333698533