Accelerating the fossil gas transition — New policy paper from Climate Bonds

Climate Bonds released a comprehensive policy paper on fossil gas: its effect on global decarbonisation efforts and how policymakers can enable the transition away from fossil gas. The paper provides a science-based examination of the risks and hidden emissions of fossil gas infrastructure and investments, providing key policy recommendations on how these risks can be avoided.

‘Accelerating the fossil gas transition’ is available now on the Climate Bonds website.

Currently, efforts are underway to include fossil gas investments on the list of sustainable activities laid out in the EU Taxonomy. This paper demonstrates how fossil gas hinders efforts to meet climate targets and weakens global decarbonisation efforts, undermining the Taxonomy’s credibility.

Climate Bonds is urging MEPs to reject the proposed changes to the EU Taxonomy.

Incremental change will not prevent catastrophic climate change

The world needs to leapfrog from fossil fuels to renewable energy. The energy transition will be met not with incremental change, but with rapid expansion of renewables, energy efficiency gains and low-carbon hydrogen.

Policy tools need to accelerate urgent action on methane leakage, alongside efforts to reduce overall demand. Incremental change is not aligned with the need for rapid decarbonisation to 2030. The transition is threatened by the inefficient and regressive strategy of gas blending (blending fossil gas and hydrogen on the same infrastructure), from which a 5% by volume hydrogen blend only displaces 1.6% of fossil gas. Blending has limited emissions reduction potential and creates stranded asset risk for investors. To meet our climate goals, the world needs policies incentivising transformational rather than incremental change.

Retrofitting gas infrastructure is a false transition pathway. As blending is not a viable decarbonisation strategy, the only valid retrofit pathway is repurposing of infrastructure for 100% hydrogen distribution.

Low-carbon hydrogen provides a transition away from fossil gas in many hard-to-abate sectors.

Even conservative estimates expect hydrogen to grow from 2% to 13-14% of the EU energy mix. This will need rapid scaling of low-carbon hydrogen. Global hydrogen investment 2020-50 could total USD15tn.[ii]

The immediate emissions benefit of hydrogen varies significantly from sector to sector. In order to meet critical 2030 reduction targets, hydrogen use will need to be prioritised for sectors with highest emissions reduction potential. For example, use of hydrogen in steel production results in 98% emissions reductions,[iii]  whereas in cement production, hydrogen could only address 1/3 of emissions.[iv]

The Energy Sector needs both investment and largescale realignment

The EU energy transition is estimated to increase investment needs by EUR390bn per year over the next ten years.[v] While the transition investment needs are high, so are fossil fuel investment flows, accounting for 45% of global energy investment.

The EU’s RePower EU[vi] plan aims to make Europe independent from Russian fossil fuels. Largescale investment in fossil gas will hinder these efforts and lock Europe to fossil fuels like Russian gas for decades.

Policymaking can guide the transition, defining credible technologies with taxonomies and standards and setting out pathways with strategic energy and infrastructure policy. The European Commission’s Fit for 55[vii] policy package provide an overview framework for this, and the new CBI policy paper outlines how to deliver this, accelerate the transition and avoid locking in investments in further fossil gas infrastructure.

[i] IEA. 2022, Global Methane Tracker 2022, https://www.iea.org/reports/global-methane-tracker-2022

[ii] Energy Transitions Commission. 2021,Making the Hydrogen Economy Possible: Accelerating Clean Hydrogen in an Electrified Economy, https://www.energy-transitions.org/publications/making-clean-hydrogen-possible/

[iii] Roland Berger. 2021, Green steel: the race is on, https://www.rolandberger.com/en/Insights/Publications/Green-steel-The-race-is-on.html

[iv] Fennell, P.S., Davis, S.J. and Mohammed, A. 2021, Decarbonizing cement production, Joule, https://doi.org/10.1016/j.joule.2021.04.011.

[v] European Commission. 2021, State of the Energy Union 2021, https://ec.europa.eu/energy/sites/default/files/state_of_the_energy_union_report_2021.pdf

[vi] https://ec.europa.eu/commission/presscorner/detail/en/ip_22_3131

[vii] https://www.consilium.europa.eu/en/policies/green-deal/fit-for-55-the-eu-plan-for-a-green-transition/

Disclaimer
The information on this page may have been provided by a contributor to ChinaGoAbroad, and ChinaGoAbroad makes no guarantees about the accuracy of any content. All content shall be used for informational purposes only. Contributors must obtain all necessary licenses and/or ownership rights from the relevant content owner(s) before submitting such content (including texts, pictures, photos and diagrams) to ChinaGoAbroad for publication. ChinaGoAbroad disclaims all liability arising from the publication of any content/information (such as texts, pictures, photos and diagrams that infringe on any copyright) received from contributors. Links may direct to third party sites out of the control of ChinaGoAbroad, and such links shall not be considered an endorsement by ChinaGoAbroad of any information contained on such third party sites. Please refer to our Disclaimer for more details.
Top