Landmark Analysis of US Greenhouse Gas Emissions Provides Pathway for the United States to Achieve Net Zero Emissions

The analysis is the first of its kind to reverse engineer the EPA’s latest GHG emission data to calculate new infrastructure investment; A conference call to discuss key findings will take place May 26, 2021

NEW YORK--()--A new analysis of US greenhouse gas emissions and a framework for the United States to achieve Net Zero emissions is announced today. The study is the first of its kind to reverse engineer the latest emission data from the Environmental Protection Agency and present an integrated framework and pathway for the US to decarbonize its economy.

The findings will be presented during a virtual event on Wednesday, May 26th at 10 AM PDT/1 PM EDT and will be co-hosted by the study’s principal author, former Wall Street analyst and CEO of Common Energy, Richard Keiser, climate advocate and leader of 350.org, Bill McKibben, and lead Partner in Allen Overy’s renewable energy practice, John Marciano. Industry and sustainability leaders, as well as policy makers are invited to attend and may register here. The report is available to download here.

“As the world’s second largest emitter, it is imperative that the US demonstrate leadership on climate change,” said Richard Keiser. “To achieve Net Zero emissions, the cornerstone of US strategy must be a massive expansion of clean electricity infrastructure. This is because all other GHG mitigation strategies are dependent on abundant clean electricity.”

Mr. Keiser continued: “The vast majority of US GHG emission reductions can be achieved today, without significant breakthroughs, using existing technologies. Accordingly, the country’s top priority should be decreasing bottlenecks to deployment, in particular accelerating the permitting and interconnection of renewable energy resources, and incentivizing the rapid electrification of the transportation sector.”

Some of the analysis’ key findings are as follows:

  • The centerpiece of US strategy should be a massive expansion of clean electricity, in particular wind, offshore wind, and all-scale solar, as all other GHG migration strategies require large increases in clean electricity. 2.4 PWh of existing coal and natural gas generation will need to be replaced, in addition to significant additional electricity for transportation and heating buildings. 3-5 TW of new renewable energy capacity is needed. This investment and requisite grid upgrades alone will cost at least $3 trillion.
  • Renewable energy generation intermittency in the grid is best solved by a combination of overbuilding renewables, vehicle-to-grid battery technology, and expanding grid interconnections. The East, West, and ERCOT sub-grids should be interconnected, and expanded to include parts of the Canadian grid.
  • No credible GHG reduction can be achieved without electrifying transportation, requiring the replacement and/or ICE substitution of approximately 300 million vehicles. Doing so will increase US annual electricity demand by 900 TWh (+22% versus current generation).
  • The vast majority of residential and commercial building emissions can be solved today with known electrification solutions, and will require an additional 1,000 TWh of clean electricity (+24% versus current generation).
  • Any credible reduction in agriculture emissions must address cattle and beef consumption, through a combination of change in cattle diet, genetic engineering, poultry-for-beef substitution, and plant-based alternatives.
  • Achieving the Biden administration’s pledged 50% reduction in greenhouse gas emissions by 2030 must rely exclusively on known solutions, as there is not time to scale new innovations for them to have meaningful impact.
  • Industrial sector emissions are the most difficult to address and will require a rethinking of product supply chains and manufacturing infrastructure. The U.S. government should support a complete mapping of production chains with relevant industry experts, and support these efforts with ambitious innovation and research and development programs.

The analysis will be presented in a free webinar on Wednesday, May 26, 2021 at 10 AM PDT/1 PM EDT. Industry and sustainability leaders as well as policy makers are invited to attend. Following the presentation there will be an open question and answer session. Interested individuals may register here. The report is available to download here.

About the Study’s Author

Richard Keiser is a former Wall Street analyst and was previously Senior Analyst and head of the Technology Strategy Group at Sanford C. Bernstein in New York. His analyses have been featured in the Wall Street Journal, the Financial Times, Bloomberg, Forbes, and in energy publications around the world. In 2007, he authored a seminal analysis on the implications of climate change for investable technology themes. In 2011, Mr. Keiser’s analysis of US electricity pricing and the solar energy cost curve correctly predict the rise of distributed energy in the United States. In 2018, Mr. Keiser founded Common Energy, a leading community solar provider. He is a graduate of MIT.

About Common Energy

Common Energy is a leading partner for renewable energy asset owners. Common Energy connects businesses, homeowners, and renters to distributed clean energy projects, and provides a platform for asset owners to manage collections and increase project ROI. Common Energy currently manages over 200MW of community solar projects around the country, serving over 10,000 customers. To join a community solar project, enroll at www.commonenergy.us. Companies interested in partnering with Common Energy are encouraged to email partners@commonenergy.us.

Contacts

Press Contact:
Haley Steinhauser
Haley@haywardpr.com
(562) 991-3170

Release Summary

A new analysis of US greenhouse gas emissions and a framework for the United States to achieve Net Zero emissions is announced today by Richard Keiser

Contacts

Press Contact:
Haley Steinhauser
Haley@haywardpr.com
(562) 991-3170