2020
DOI: 10.1080/14693062.2020.1803040
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The making of green steel in the EU: a policy evaluation for the early commercialization phase

Abstract: In the attempt to reduce greenhouse gas emissions from steel production, several large industry decarbonization projects have emerged in Europe. The commercialization of low-emission steel technology, however, faces systemic barriers such as a lack of infrastructure and unclear demand for greener steel. As part of its new commitment to climate-neutrality, the European Commission has announced plans to more actively create and reshape markets for green basic materials. The approach is inspired by the recent suc… Show more

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Cited by 76 publications
(34 citation statements)
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“…The results obtained for the total impact of GHG emissions in scenarios 1, 2 and 3 for the construction stage, in Table 8, have the same order of magnitude as the values presented in Table 3 by Mathieu, Pavaux and Gaudry (2013), as well as the observation that the track is the element that contributes most to the impacts, as also found by Krezo et al (2016) and Stripple and Uppenberg (2010). In this respect, steelmakers are currently making efforts to produce "green steel", mainly involving replacement of natural gas with hydrogen (Vogl, Åhman & Nilsson, 2020).…”
Section: Resultsmentioning
confidence: 99%
“…The results obtained for the total impact of GHG emissions in scenarios 1, 2 and 3 for the construction stage, in Table 8, have the same order of magnitude as the values presented in Table 3 by Mathieu, Pavaux and Gaudry (2013), as well as the observation that the track is the element that contributes most to the impacts, as also found by Krezo et al (2016) and Stripple and Uppenberg (2010). In this respect, steelmakers are currently making efforts to produce "green steel", mainly involving replacement of natural gas with hydrogen (Vogl, Åhman & Nilsson, 2020).…”
Section: Resultsmentioning
confidence: 99%
“…Intermediate steps that are aligned with a long-term zero-emission strategy that limits further carbon lock-in can be implemented already today. 46 The diversity of steel mills in terms of assets and sizes allows for varying and often intermediate and stepwise technological pathways, influenced by the specific geographic and economic context in which a site is embedded. For example, a recent refurbishment of a main asset might be a reason to prefer one technological path over another.…”
Section: Discussionmentioning
confidence: 99%
“…However, this delay in effective emission reductions can be Article mitigated if zero-emission steel technologies that replace current assets are able to capture green premium markets. 46 This would allow zero-emission alternatives to scale independently from the state of global blast furnace capacity and outcompete carbon-intensive steel production methods. In other words, demand previously served through the blast furnace route becomes demand for ''green'' steel, leading to emission reductions in line with blast furnace retirements and retaining the low-capacity utilization in the emission-intensive segment of steel production.…”
Section: Discussionmentioning
confidence: 99%
“…Setting up such markets for industrial products relies on information instruments, such as carbon footprint tracing or tradable certificates for green materials. In turn, this facilitates the introduction of product requirements and quota obligations, and allows private and public actors to procure green products (Vogl et al, 2020). Demand-side policies aiming to establish markets for greener materials are emerging around the world, e.g.…”
Section: Creating and Reshaping Marketsmentioning
confidence: 99%