Summary

New York has established ambitious state-wide goals for energy efficiency, greenhouse gas emission reductions, renewable energy growth, and reduced reliance on nuclear energy.  The state has launched many clean energy initiatives across numerous agencies and organizations, but interrelated activities need to be managed in a time-synchronized, efficient and cost-effective manner across the state’s 62 counties to successfully achieve these state goals.

PSE Healthy Energy is creating an overarching, integrated Energy Transformation Framework for New York State to help inform effective policies and pathways. The framework identifies yearly quantitative milestones that must be achieved to meet the state-wide goals:

  • 50% renewable power and 40% emission reductions by 2030
  • 80% emission reductions by 2050.

Milestones are identified for each of five sectors: transportation, residential, commercial, industrial, and electric power. Within each sector, we establish incremental targets for the most relevant parameters:

  • Metric tons of CO2 to be reduced;
  • Amount of fossil fuel use to be reduced by type;
  • Number of CO2-emitting systems to be replaced (e.g. gasoline powered passenger vehicles);
  • Number of emissions-free systems to be installed;
  • Required efficiency levels;
  • Additional electric power needed to support electrification of current fossil fuel use systems and industrial processes;
  • Timeline for when existing fossil fuel and nuclear power plants can be de-commissioned.

Greenhouse gas impacts of upstream methane emissions from natural gas production are included in emission estimates.  All quantitative energy transformation timelines are presented within the context of historic energy use and greenhouse gas emissions to highlight the need for accelerated and coordinated deployment of clean energy systems to achieve meaningful greenhouse gas emission reductions across the state.​

Slides from this presentation are available below. These slides are preliminary, and this research will continue to be updated as our research is refined.