In terms of implementation, residential conservation standards were found to be goal-effective, cost-effective, scale-effective, and in the case of new construction standards, reasonably resistant to local political pushback. Local compact growth programs do not perform as well. If accompanied by aggressive efforts to get drivers out of their cars, compact growth programs could reduce auto-based 2030 CO₂ emissions by as much as 25% over and above any emissions reductions attributable to higher fuel economy standards.

Unaccompanied by modal diversion programs, the stand-alone potential for local compact growth programs to reduce auto-based CO₂ emissions falls into a more modest range of 0 to 7 percent depending on the metropolitan area. Based on past performance, local compact growth programs are also likely to have problems in terms of their goal- and scale-efficiency, and their potential to incur political pushback.

— Landis et al.

The study analyzes how extensively local planning policies could either complement the Obama administration’s Clean Power Plan (CPP) of 2015 or compensate for its absence. The CPP is intended to reduce greenhouse gas emissions from power plants. In early 2016, a US Supreme Court ruling halted the measure’s potential enactment; the legal case is unresolved and the Trump administration has announced it intends to unwind the CPP.

Our take-home message is that cities can do a lot at the local level with housing stock. In transportation, cities can’t make up for the loss of a national strategy.

—David Hsu, co-author

The researchers also found that policies with the biggest local impact vary from city to city, with faster-growing Sun Belt cities such as Houston and Phoenix having the potential to enact a bigger reduction in residential emissions than older cities such as Boston or Philadelphia, which see less change in their housing stock.

To analyze ways of cutting emissions from residential energy by 2030, the researchers modeled a baseline scenario in which housing characteristics remained the same. They also modeled scenarios featuring a variety of changes, including the implementation of new energy-efficient construction standards, the building of more multifamily homes, and the retrofitting of homes to save energy.

Simply requiring newly built homes to be more energy efficient would reduce residential emissions by an average of 6% by 2030. But requiring existing homes to be retrofitted would yield a further 19% reduction of residential emission, on average, across the 11 cities.

There was relatively less benefit from a scenario in which the number of newly built single-family homes was reduced by 25% by 2030 and replaced by multifamily buildings. This greater housing density would have virtually no incremental benefit in terms of reduced residential energy use and CO₂ emissions, the authors found.

Shifting people to multifamily buildings is what planners have always wanted to do, but that’s actually not as effective as most advocates would have thought.

—David Hsu

The main reason for this, the researchers find, is that as new homes become more energy-efficient, the energy-use differences between larger single-family homes and homes in multifamily dwellings will shrink, thus reducing the energy and emissions benefits of any substituting attached homes for detached ones. (The study did find that in Phoenix, one of the 11 cities examined, greater density would have a notable effect on emissions.)

In any case, Hsu noted, the impact of policies related to construction standards and retrofitting alone is significant: “You can do a lot of things at the local level to affect housing stock that are basically equivalent or even more aggressive than the Clean Power Plan.”

All told, housing accounts for about 20% of US carbon dioxide emissions, according to the US Energy Information Administration. The researchers found that the full suite of residential energy conservation programs could lower total US. carbon dioxide emissions by nearly 12% compared to the “business-as-usual” projections for 2030, when coupled with the CPP, and by 9% even without implementation of the CPP.

On the transportation side, the researchers also modeled urban emissions growth through the year 2030. They again evaluated a baseline scenario in which current conditions essentially continue intact, as well as a handful of alternate scenarios in which total vehicle-miles traveled varies due to increased use of mass transit and changes in housing density.

The team also compared the effects of these local planning efforts to the reduction in emissions that would occur under the Obama administration’s plan to increase the fuel efficiency of the automobile fleet to 54.5 miles per gallon by the year 2027.

The study’s bottom-line finding is that, by 2030, a federal mandate increasing vehicle fuel efficiency to 54.5 miles per gallon would reduce auto-based emissions in the 11 cities by 38%, in the absence of any additional mass transit or density programs. That number would increase to 46%, on average, if the cities adopted robust transit and density policies. (The Trump administration has stated it will review and may possibly drop the existing fuel-efficiency plan.)

“The results for increasing the average fuel efficiency of the US fleet are still stronger than what we can do on the planning side,” Hsu says. However, he notes, that is a relative outcome, and incremental emissions reductions from increased use of mass transit, among other things, may well be worth pursuing at the municipal level. The 11 cities analyzed in the study are Atlanta, Boston, Chicago, Cleveland, Denver, Houston, Los Angeles, Miami, Philadelphia, Phoenix, and Seattle.

Changing circumstances could alter the model’s projections—e.g., a rapid electrification of the automobile fleet. The paper also makes clear that the average effects found across the 11 cities vary considerably. Mandating that newly built homes be more energy efficient would reduce residential emissions by 10 to 13% in Houston and Phoenix, but only by 3 to 5% in slower-growing metro areas, including Boston, Chicago, Cleveland, and Philadelphia.

The amount of emissions reduction possible in any urban area also depends on existing levels. Cleveland and Denver, which both rely heavily on coal-fired power plants, have the highest rates of emissions per units of energy produced; they produce 34.3 and 32.7 kilograms of carbon dioxide emissions per million BTU, respectively.

Los Angeles, by contrast, produces only 10.7 kilograms of carbon dioxide emissions per million BTU, making its energy use about one-third as carbon-intensive as that of Cleveland and Denver. Ultimately each metropolitan area, Hsu suggests, may have to find its own path toward a clean energy future.

Resources

• John D. Landis, David Hsu, Erick Guerra (2017) “Intersecting Residential and Transportation CO₂ Emissions: Metropolitan Climate Change Programs in the Age of Trump” Journal of Planning Education and Research doi: 10.1177/0739456X17729438