Scenario Discovery Analysis of Drivers of Solar and Wind Energy Transitions through 2050
Abstract
The adoption of renewable energy sources, like solar and wind, can reduce emissions and help achieve sustainability goals, yet models project a broad range of future solar and wind energy shares in future scenarios. Deep human-Earth system uncertainties and strong multi-sector dynamics make it difficult to anticipate which conditions are most likely to lead to higher or lower adoption of renewable energy. To elucidate these conditions, we explore a large dataset of scenarios simulated from the Global Change Analysis Model (GCAM), and use scenario discovery to identify the most significant factors affecting solar and wind adoption by mid-century. We generated a dataset of over 4000 scenarios from GCAM by varying 12 different socioeconomic factors at high and low levels, including assumptions about future energy demand, resource costs, and fossil fuel emissions paths, as well as specific technology assumptions including wind and solar backup requirements and storage costs. Using scenario discovery, we assess the most important factors globally and regionally in creating high (or low) fractions of solar and wind energy and explore interconnected effects on other systems including water and land use change. This work provides insight into what conditions make it more or less challenging to achieve high levels of solar and wind energy use in the future, and the tradeoffs involved in these options, and can be used to support modeling efforts of future energy transition strategies.
- Publication:
-
AGU Fall Meeting Abstracts
- Pub Date:
- December 2021
- Bibcode:
- 2021AGUFMGC25M0780W