Pragmatic Building Decarbonization Is Necessary to Successfully Meet Climate Change Mitigation Goals A summary of the A. O. Smith White Paper, “Electrification of Water and Space Heating in Buildings” by Stephen Memory, PhD, Timothy Rooney, Jianmin Yin. September 2021.
As state and local governments continue to take the lead in acting to reduce greenhouse gas (GHG) emissions across their economies, policymakers across the United States are focusing on the role that buildings play in meeting climate change mitigation goals.
FIG. 1
Total Fuel Use in Buildings
Space Heating
While public and private sector analyses reach similar conclusions — that reducing the carbon-intensity of buildings must be part of broader policy initiatives toward decarbonizing our economy — transitioning buildings away from utilizing natural gas for space and water heating to electricity exclusively presents significant challenges, from physical infrastructure and electricity grid modernization, to the economics of retrofitting millions of households and commercial buildings.
Water Heating
Cooking/ Other
These challenges are not necessarily insurmountable. However, pragmatic, stepwise solutions — rather than one-size-fits-all — will be absolutely necessary to achieve governmental building decarbonization goals by 2030 and 2050, respectively. Policymakers and others must take into consideration regional differences, including seasonal and colder climates, as well as the need for high-efficiency gas backup sources for large space and water heating loads, and must create consistent programs and incentives to provide the value proposition to property owners and businesses to make the changes necessary to achieve these goals.
CO2 Emitted Each Year from Using Fossil Fuels for Combustion in Buildings2
Residential
FIG. 2
Commercial
U.S. Greenhouse Gas Emissions by Economic Sector in 20193
BACKGROUND Residential and commercial buildings accounted for approximately 40% of total U.S. energy consumption in 20201; 70 million of those buildings use natural gas, oil or propane on site for space and water heating, as well as cooking. While nearly 87% of building-generated GHG emissions come from space and water heating (Fig. 1), as a percentage of total U.S. GHG emissions, buildings are a smaller overall piece of the decarbonization pie (Fig. 2). Notwithstanding the economy-wide percentages, policymakers and other stakeholders have identified building decarbonization — via the “electrification” of end-use space and water heating installations — as an important and necessary pathway to significantly reduce greenhouse gas emissions from the building sector.
Commercial and residential buildings accounted for
40%
of total U.S. energy consumption in 2020.
70
28.7% Transportation
Residential Commercial
5.8%
25.2% Electricity Generation
7.0% 10.2% Agriculture
23.0% Industry
million
American homes and businesses use natural gas, oil or propane on site for space and water heating.
References 1. U.S. Energy Information Administration, Monthly Energy Review, Table 2.1, April 2021 2. S. Billimoria, L. Guccione, M. Henchen and L. Louis-Prescott, “The Economics of Electrifying Buildings: How Electric Space and Water Heating Supports Decarbonization of Residential Buildings,” Basalt, CO, 2018.
3. U.S. EPA’s Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2019