Report:

Electric Buildings

Repowering homes and businesses for our health and environment
Released by: PennPIRG Education Fund

To prevent air and water pollution and avoid the worst impacts of global warming, America must move toward meeting our energy needs with 100% renew- able energy. Getting there will require that we get the most out of every bit of energy we use — and that we stop burn- ing fossil fuels in our homes and commercial buildings.

Wind and solar power are rapidly replacing dirty fossil fuels like coal as leading sources of our electricity.1 As our electricity grid becomes cleaner, replacing the direct burning of gas, heating oil and propane in our build- ings with electricity will reduce pollution of our air, land and water from fossil fuel production and use.

New and improved technologies are putting clean, efficient electric space heating and water heating, and electric appliances like stoves within the reach of most American households. Analysis shows that electrifying the vast majority of America’s residences and commer- cial spaces by 2050 could reduce net greenhouse gas emissions from the residential and commercial sectors by about 306 million metric tons of carbon dioxide (CO2) in 2050.2 That is the equivalent of taking about 65 million of today’s cars off the road — almost three times the number of vehicles in Texas.3

Common barriers, including knowledge gaps, high upfront costs and lack of governmental support, often make the decision to switch from fossil fuels to elec- tricity challenging for many homeowners, tenants and businesses. Local, state and federal governments should adopt policies to help overcome those barriers and accel- erate the transition of our homes and businesses away from fossil fuels and toward electric power.

Fossil fuel burning in homes and businesses contrib- utes to global warming and puts our health and safety at risk.

• There are almost 140 million housing units in the United States, and 5.6 million commercial buildings.4 Three out of every four American homes use fossil fuels directly for space heating, water heating or appli- ances.5 Direct burning of fossil fuels accounts for more than half of all energy used in homes and at least 34% of all energy used in commercial buildings.6 These tens of millions of housing units and millions of commer- cial buildings will eventually need to be electrified.

• In 2018, fuel combustion in U.S. homes and busi- nesses produced 590 million metric tons of CO2 equivalent, accounting for almost 9% of total U.S. greenhouse gas (GHG) emissions.7

• Burning fossil fuels within our homes creates indoor and outdoor air pollution, which contributes to the development of respiratory diseases, heart dis- ease and cancer.8 Air pollution has also been asso- ciated with increased risk of contracting and dying from infectious diseases including COVID-19.9

o A 2020 literature review found that, even without considering other direct uses of fossil fuel in homes, “gas stoves may be exposing tens of millions of people to levels of air pollution in their homes that would be illegal outdoors under national air quality standards.”10

• Extracting and transporting fossil fuels for home use also carries risk. In just the last 20 years, there have been more than 5,000 incidents involving gas leaks, facility emergencies or other events deemed significant by the operator.11 These inci- dents have killed hundreds of people and injured more than 1,000.12

Electrifying America’s buildings will help the environ- ment and help break our dependence on fossil fuels.

  • Switching to electricity to power the vast majority of our homes and businesses by 2050 could cut around 306 million metric tons of CO2 annual emissions in 2050, according to analysis of mod- eling data from the National Renewable Energy Laboratory (NREL).13 These savings are relative to a business-as-usual reference scenario in which there is no support for, or widespread adoption of, electri- fication technologies.
  • These savings are the equivalent of taking almost 65 million of today’s passenger vehicles off the road.14
  • By simultaneously switching to zero-emission renew- able electricity, the emission reductions associated with electrification grow to 416 million metric tons of CO2 in 2050.15

• New York, California and Texas are the states with the largest projected decrease in emissions, followed by Illinois, Ohio and Pennsylvania.16

• Electrifying buildings also eliminates the health risks posed by indoor combustion of fossil fuels.

• Analysis of the same NREL modeling data shows that switching to electricity to power the vast majority of our homes and businesses by 2050 could reduce consumption of gas by upwards of 7 trillion cubic feet in that year relative to a reference scenario — the equivalent of 82% of all the gas consumed in those sectors in 2019.18

  • o  Reducing our usage of gas also reduces the numerous harmful environmental impacts that occur during its life cycle, including usage of toxic chemicals, contamination of drinking water, overuse of freshwater, methane pollution, and the destruction of natural landscapes.19
  • o  New York, California and Illinois top the list for greatest projected reduction in gas usage, accord- ing to the analysis, followed by Pennsylvania, Ohio and Texas.20

 

 

Electric technologies can repower America’s buildings and open the door to renewable energy.

Today’s electric technologies can meet nearly all our home and business energy needs — and often do so at a competitive cost and with a fraction of the pollution caused by fossil fuel combustion.

  • Space heating — Electric heat pumps, which pull heat from the air, ground or from bodies of water and move it around a building, have improved dramati- cally in recent years.22 Geothermal heat pumps func- tion well in all climates, and air-source heat pumps can now function efficiently down to -15 degrees Fahrenheit.23 Air source and geothermal heat pumps are several times more efficient than gas and oil heat- ing systems and can meet both heating and cooling needs in homes and commercial buildings.24
  • Water heating — Electric resistance, heat pump and solar thermal water heaters can all heat water without the direct use of fossil fuels. New technological developments are making electric technologies more efficient and cost-effective. Water heat pumps are often two to three times as efficient as electric resistance water heaters.25
  • Appliances — Highly efficient electric appliances can replace fossil-fueled versions and are often more effective. For example, electric induction cooktops, which cost about as much as a mid-tier gas range, cook faster and are cleaner, more precise and safer.26

Building electrification often makes sense for consumers.

  • Electric heat pumps are already cost-effective for new construction and for some building retrofits.27 Rocky Mountain Institute found that customers in 11 differ- ent cities across the country could save thousands of dollars over a 15-year period by building all-electric new homes versus mixed-fuel new homes that use fossil fuels for some needs, like space heating and cooking.28
  • Replacing an existing fossil fuel furnace with an electric heat pump is also financially beneficial in some circumstances.29 Retrofitting a fossil fuel furnace is most cost-effective when the fuel being replaced is either propane or fuel oil, and when both the furnace and the air conditioning (A/C) unit are at the end of their useful lives.30
  • Building electrification allows owners to take advantage of falling prices for clean electricity and benefit fully from the installation of solar photo- voltaic (PV) panels or subscription to community solar projects.31 All-electric homes can meet much or all of their energy needs with solar panels — aiding homeowners financially and creating new opportu- nities for renewable energy.32

 

Common barriers — including lack of knowledge and insufficient incentives — are slowing the electrification of America’s buildings.

  • Contractors may be unfamiliar with current tech- nology and foster a perception that electric heat pumps and other electric appliances are more expensive, impractical or unreliable.33
  • Many consumers are not aware of improved tech- nologies for electric heating and cooking — such
    as advanced heat pumps and induction cooktops
    — that overcome the limitations of previous genera- tions of electric appliances and are more convenient and safer than fossil fuel-powered options.34
  • While falling prices have made electric systems affordable and sustainable options for new build- ings, the high capital costs associated with retro- fitting buildings may mean that electrification is not always financially viable without substantial incentives.35
  • Fossil fuel systems have long lifetimes, meaning they do not get replaced very often, and any new systems installed in the next few years will last for decades.36
  • Regulatory barriers like fuel-switching restrictions and unfavorable rate designs make electrification more expensive than necessary. Some states have legacy restrictions on fuel switching that prevent incentivizing electrification in favor of installing gas systems.37 Utility rate designs that do not incentivize demand response or load flexibility also prevent customers from reaping the maximum benefits of electrifying their buildings.38 These problems slow the transition to technologies that can be truly zero-emission.39
  • Concerns about the cost of electrification and about future demand on the grid may lead policy- makers to take a “go slow” approach to electrifica- tion, despite the long lifetimes of fossil fuel energy systems and the pressing need to move to a 100% renewable energy system no later than mid-century.

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