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Adapting for Tomorrow: Powering a Resilient Future

Every part of the world is experiencing the effects of climate change, which continues to impact people, the environment and the economy with only more severe effects anticipated.

SCE’s recent Climate Adaptation Vulnerability Assessment (CAVA) filed with the California Public Utilities Commission — the first by a California investor-owned utility — evaluated climate impacts to utility assets, operations and services. Through global climate model (GCM) projections, CAVA studied exposure, vulnerabilities and adaptations from hazards including temperature, precipitation, flood, drought, wildfire and sea level rise.

Adapting for Tomorrow: Powering a Resilient Future shares key findings from the CAVA and calls for increased collaboration among industry, governments and communities to successfully adapt while transitioning to a clean energy future that can be equitable for all.

TRANSLATED FACT SHEETS ALSO AVAILABLE IN SPANISH, KOREAN, VIETNAMESE AND CHINESE

Key Findings Demand Urgent Action:

  • The cost to invest in climate adaptation now is far less than the cost of inaction — both for the economy and public health and safety.
  • As society decarbonizes in a changing climate, we need modernized planning for the grid to power communities in an uncertain future.
  • Given the interdependencies of critical infrastructure, it takes all of us working together to confront the climate crisis.

2050 Climate Exposure Trends and Potential Impacts on the Electrical System

adapting-for-climate-average-temperature

AVERAGE TEMPERATURE

5°F projected increase relative to historical averages

AVERAGE TEMPERATURE IMPACTS

  • Existing infrastructure will become less efficient, especially inland, resulting in reduced capacity on lines and higher losses in transformers
  • Useful life of assets will decrease due to increased exposure and usage

adapting-for-climate-extreme-heat

EXTREME HEAT

7X more likely, on average, for SCE service area to experience temperatures as hot as or hotter than the historical 99th percentile temperature

EXTREME HEAT IMPACTS

  • Worker safety standards will need to account for heat
  • Peak load could increase significantly
  • Equipment will not cool overnight during intense heat waves, reducing capacity and useful life of some equipment

adapting-for-climate-wildfire

WILDFIRE

23% more land projected to burn during summer fuel-driven wildfires and wildfire season is expected to become longer

WILDFIRE IMPACTS

  • Conditions may be more conducive to wildfire ignition and spread
  • Impacted service centers may not be able to operate or perform key functions during wildfires or droughts

adapting-for-climate-precipitation

PRECIPITATION

40% projected decline in snowpack and more variable year-to-year precipitation with more intense drought and fewer, more intense precipitation events

PRECIPITATION IMPACTS

  • Infrastructure will need to be designed to withstand more intense storm surges and flooding
  • Hydroelectric energy generation could become less reliable if the current drought continues or in the event of future prolonged droughts

adapting-for-climate-sea-level

SEA LEVEL

2.6 feet projected sea level rise relative to the year 2000

SEA LEVEL IMPACTS

  • Infrastructure and communities in some coastal areas will be at higher risk of flooding

adapting-for-climate-cascading-events

CASCADING EVENTS

A range of high-impact, low-probability events can occur from the interaction between exposure variables such as post-fire mudslides (debris flow) and rain-on-snow events

CASCADING EVENTS IMPACTS

  • Communities in or near high fire risk areas could be exposed to increased landslide risk
  • Hydroelectric planners need to account for early snowmelt and extreme runoff

Note: All exposure projections reflect climate change under a “high emissions” scenario, or Representative Concentration Pathway (RCP), commonly referred to as RCP 8.5.

How We Get There

Government / Regulatory Planning:

Relevant climate projections must be consistently incorporated across all key long-term energy planning processes. Federal and state governments must fund local and regional adaptation planning and solutions that holistically address specific climate change risks in optimized ways.

Industry / Electric Sector Planning:

Extending planning horizons to 20+ years will help guide shorter-term infrastructure investments that also address longer-term climate change risks. Appropriate resiliency design criteria need to be developed across the electric industry. The industry must develop new frameworks that enable utilities to better plan under uncertainty to arrive at least-regrets solutions that address many plausible outcomes.

Community Collaboration:

Communities, local jurisdictions, state agencies and the federal government must share a common language and understanding of climate risks to facilitate meaningful cross-sector resiliency planning that efficiently minimizes societal costs and maximizes public benefits. Disadvantaged Vulnerable Communities (DVCs) will need extra support to ensure a just transition.

Creating a Clean Energy Future

Countdown to 2045

Edison’s updated analysis of the bold steps needed to enable massive electrification growth and expand the grid while achieving the most feasible, affordable solutions to meet California’s ambitious net-zero goal.

Mind the Gap

Edison’s analysis of the policy changes and additions needed to ensure that California meets its goal of reducing greenhouse gas emissions 40% by 2030 — a reduction that is essential if the state is to achieve its ultimate goal of a decarbonized economy by 2045.

Reimagining the Grid

SCE’s vision of the future electric grid — to enable efficient integration of clean resources, support customer adoption of new technologies and ensure climate adaptation and resilience.

Pathway 2045

SCE’s 2019 data-driven analysis of the steps that California must take to meet the 2045 goals to clean our electric grid and reach carbon neutrality.
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