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H2 Sustainable Transportation Energy Pathways (STEPS)

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Presentation on theme: "H2 Sustainable Transportation Energy Pathways (STEPS)"— Presentation transcript:

1 H2 Sustainable Transportation Energy Pathways (STEPS) Research Ideas: Transportation Fuel Infrastructure Vulnerability and Resiliency to Climate Change Dec. 7, 2017 Joan Ogden Yueyue Fan Amy Jaffe

2 Integrated Assessment Modeling => Elec
Integrated Assessment Modeling => Elec. Drive, Low-C Fuels Play Major Role in 2o Scenario 4 DS 2 DS FCV + PEV Low-C Transport Future High eff. vehicles, electric drive (HEV, PEV, FCV) Diverse low-C fuels: electricity, H2, biofuels Decarbonization of primary energy supply Carbon management Source: International Energy Agency Energy Technology Perspectives 2012

3 Infrastructure Implications of 2o scenario
TRANSPORTATION TAPS INTO EVOLVING ELECTRIC GRID (w/increasing % variable renewable power) EV charging, power-to-gas, power-to-liquids NEW FUELS => Adapt/use existing infrastructure, (Drop-in biofuels? Blend H2 w/ NG? Smart elec. grid) New dedicated infrastructures NEW INFRASTRUCTURE FOR CARBON MANAGEMENT Carbon Capture (Chemical Process or Atmospheric) CCS (pipelines and storage)

4 Northern California Energy Infrastructure
ADAPTATION TO IMPACTS OF CLIMATE CHANGE EVOLUTION TOWARD LOW CARBON ENERGY SUPPLY 4

5 CA Climate Change Projections
Air and Water Temperature Rise Decreasing water availability Increasing intensity of storms, sea level rise, storm surge Increasing intensity and frequency of flooding More frequent and severe wildfires Changes in precipitation timing and decreasing snowpack => potential impacts on energy system Less efficient electric gen and T&D d.t. high temperature Wildfire damage Flood damage Storm damage Increased risk of physical damage and disruption to power and fuel facilities Disruption of rail and barge transport of crude oil, petroleum products Increased summer A/C and NG demand; less heat in winter IMPACTS ARE GEOGRAPHICALLY SPECIFIC 5

6 Conduct Regional Case Studies
RESEARCH AGENDA Conduct Regional Case Studies Develop spatial/time scenarios for evolution of fuel supply system Consider Adaptation + transition to clean energy Identify key vulnerabilities for energy infrastructure Optimize systems for resiliency Operation of existing fuel systems Buildout of new systems for low carbon fuel supply Capture risks, dynamics caused by evolving infrastructure and climate, and system interdependence. 6

7 extras 7

8 Clinate change Implications
 ELEC. GEN. CA Climate Projection Potential Risk/Impact Thermo-electric power plants (NG, coal, geothermal, CSP, nuclear) Increasing air & water temp. Decreasing water availability Increasing intensity storms, sea level rise, storm surge Increasing intensity and frequency of flooding Reduced plant efficiencies & available generation capacity increased risk of exceeding thermal discharge limits impacts on coal, NG, and nuclear fuel supply chains Increased risk of physical damage & disruption to power facilities Hydropower Increasing temps & evap. loss Changes in precipitation timing and decreasing snowpack Reduction in available generation capacity & changes in operations Increased risk of physical damage and changes in operation Solar Increasing air temperatures Reduction in potential peak generation capacity (PV and CSP) Wind Variability of wind patterns Net impact generation uncertain ELEC. T&D More frequent and severe wildfires Increasing intensity of storms Increasing intensity, frequency of flooding Reduction in transmission efficiency and available transmission capacity Increased risk of physical damage Substations subject to flooding Clinate change Implications

9 Clinate change Implications
CA Climate Change Projection Potential Risk/Impact FUELS Natural Gas fuel processing, storage, pipelines Decreasing water availability Increasing intensity of storm events, sea level rise, and storm surge Increasing intensity and frequency of flooding Impacts on drilling and production Increased risk of physical damage and disruption to coastal facilities Increased risk of physical damage to inland facilities Petroleum Production. Refineries, Transport Reduction in river levels Impacts on drilling, production, and refining Disruption of barge transport of crude oil, petroleum products Disruption of rail and barge transport of crude oil, petroleum products Bio-refineries; Bioenergy Increasing air temperatures Extended growing season Sea level rise and increasing intensity and frequency of flooding Increased irrigation demand; risk of crop damage from extreme heat events Increased biomass production Decreased biomass production Increased risk of crop damage Clinate change Implications

10 Climate change Implications
ENERGY DEMAND Electricity Increased demand for summer A/C; reduction of winter space heat demand; demand side management and/or storage to match supply and demand. Natural Gas Reduction of winter space heat demand; more NG needed by power plants to compensate for lower efficiency at summer peak times. Transportation Fuel Depends on mix of fuel/vehicle types in light and heavy duty sectors, aviation, freight. Low Carbon Futures require higher efficiency vehicles, lower carbon fuels: Electricity, H2; biofuels; RNG

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