American Chemistry Council (ACC) is touting projections in a new report by the International Council of Chemical Associations (ICCA) showing that combining building efficiency improvements-made possible by innovations in chemistry–with lower-carbon fuels could lead to a 41 percent reduction in energy use and a 70& reduction in greenhouse gas emissions by 2050.
Of all the energy used in the U.S., nearly one-third is consumed by the building sector. Improving efficiency is critical, and during the next few decades the amount of energy used by the building sector will increase dramatically (more than 62% by 2050), as will the amount of CO? emissions (more than 87% by 2050), according to the ICCA report.
“The ICCA projections reinforce what we have known for long time – that the chemical industry is an indispensable provider of solutions that improve the energy efficiency of buildings,” said Cal Dooley, president and CEO of the American Chemistry Council. “Nearly every energy-efficient technology is dependent on innovations made possible by chemistry. Our products make the nation’s energy supplies go further while lowering energy costs for businesses and families.”
The ICCA Building Technology Roadmap, which will be officially released this week at the 18th session of the Conference of the Parties to the United Nations Framework Convention on Climate Change in Doha, Qatar, examined the chemical industry’s contributions to energy efficiency and greenhouse gas savings in residential and commercial construction. The report focused on the potential savings from five chemically derived building technologies that are commercially available today: insulation, pipe and pipe insulation, air sealing, reflective roof coatings and pigments, and windows.
According to the ICCA report, energy-saving products installed in homes in the U.S. prevented nearly 283 million tons of CO? emissions in 2010–equivalent to the greenhouse gas emissions of 50 million passenger vehicles. Studies show that if this trend continues, more than 7 billion tons of emissions can be avoided by 2050 in the U.S. alone–equivalent to the CO? emissions of more than 1.2 billion passenger vehicles.
Averaging at least 75% of the heat loss in households, single-family homes provide most of the potential for energy savings within the residential sector. In 2010, the cumulative energy savings from chemically derived building products in U.S. residential buildings was 46 times greater than the energy required to produce the products. +
Related Stories
| Nov 2, 2010
A Look Back at the Navy’s First LEED Gold
Building Design+Construction takes a retrospective tour of a pace-setting LEED project.
| Nov 2, 2010
Wind Power, Windy City-style
Building-integrated wind turbines lend a futuristic look to a parking structure in Chicago’s trendy River North neighborhood. Only time will tell how much power the wind devices will generate.
| Nov 2, 2010
Energy Analysis No Longer a Luxury
Back in the halcyon days of 2006, energy analysis of building design and performance was a luxury. Sure, many forward-thinking AEC firms ran their designs through services such as Autodesk’s Green Building Studio and IES’s Virtual Environment, and some facility managers used Honeywell’s Energy Manager and other monitoring software. Today, however, knowing exactly how much energy your building will produce and use is survival of the fittest as energy costs and green design requirements demand precision.
| Nov 2, 2010
Yudelson: ‘If It Doesn’t Perform, It Can’t Be Green’
Jerry Yudelson, prolific author and veteran green building expert, challenges Building Teams to think big when it comes to controlling energy use and reducing carbon emissions in buildings.
| Nov 2, 2010
Historic changes to commercial building energy codes drive energy efficiency, emissions reductions
Revisions to the commercial section of the 2012 International Energy Conservation Code (IECC) represent the largest single-step efficiency increase in the history of the national, model energy. The changes mean that new and renovated buildings constructed in jurisdictions that follow the 2012 IECC will use 30% less energy than those built to current standards.
| Nov 1, 2010
Sustainable, mixed-income housing to revitalize community
The $41 million Arlington Grove mixed-use development in St. Louis is viewed as a major step in revitalizing the community. Developed by McCormack Baron Salazar with KAI Design & Build (architect, MEP, GC), the project will add 112 new and renovated mixed-income rental units (market rate, low-income, and public housing) totaling 162,000 sf, plus 5,000 sf of commercial/retail space.
| Nov 1, 2010
John Pearce: First thing I tell designers: Do your homework!
John Pearce, FAIA, University Architect at Duke University, Durham, N.C., tells BD+C’s Robert Cassidy about the school’s construction plans and sustainability efforts, how to land work at Duke, and why he’s proceeding with caution when it comes to BIM.
| Nov 1, 2010
Vancouver’s former Olympic Village shoots for Gold
The first tenants of the Millennium Water development in Vancouver, B.C., were Olympic athletes competing in the 2010 Winter Games. Now the former Olympic Village, located on a 17-acre brownfield site, is being transformed into a residential neighborhood targeting LEED ND Gold. The buildings are expected to consume 30-70% less energy than comparable structures.
| Oct 27, 2010
Grid-neutral education complex to serve students, community
MVE Institutional designed the Downtown Educational Complex in Oakland, Calif., to serve as an educational facility, community center, and grid-neutral green building. The 123,000-sf complex, now under construction on a 5.5-acre site in the city’s Lake Merritt neighborhood, will be built in two phases, the first expected to be completed in spring 2012 and the second in fall 2014.