When energy doesn’t add up: use of an energyshed framework in assessing progress towards renewable energy transitions

Kayla P. Garrett, Ryan A. McManamay, Christopher R. DeRolph

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

Global progress in energy transitions to support climate mitigation goals has been slower than anticipated; this has prompted shifts away from traditional paradigms of regulated energy ownership towards a model of energy democratization by local communities and individuals. For example, in the United States, local communities in over 250 cities, counties, and states have made pledges to reach 100% renewable electrification by target dates ranging from 2020 to 2050. However, the availability of infrastructure and the competition for renewable energy resources, as well as lack of awareness of these limitations, present significant barriers to overcome. In this study, we explored a subset of 31 of these cities to assess their current electricity generation and how much further they have to go to meet their goals. Through an energyshed framework, we estimated powerplant electricity allocation to each city assuming competition for power from various renewable and non-renewable resource types, as well as look at the ‘best case scenario’ assuming 100% allocation of renewable-sourced electricity for a handful of cities in order to understand the existing and planned energy mixes for 2021 and the following 20 years. It is likely most cities will meet 10% of their energy demand with renewable energy, with best cases scenarios reaching between 35% and 65% renewable penetration, within the next 20-30 years. This highlights the need for infrastructural development in the energy sector, as well as intentional planning efforts in order to make these energy goals a reality.

Original languageEnglish
Article number015004
JournalEnvironmental Research: Infrastructure and Sustainability
Volume4
Issue number1
DOIs
StatePublished - Mar 1 2024

Funding

Funding for study was provided by the Baylor College of Arts and Sciences, Summer Research Fund (to RAM).

FundersFunder number
Baylor College of Arts and Sciences

    Keywords

    • electricity infrastructure
    • energy transitions
    • energyshed
    • renewable energy

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