Friday, June 28, 2013

Big Environmental Footprints

21 percent of households account for almost 50 percent of greenhouse gas emissions. 

Energy conservation in a small number of households could go a long way to reducing greenhouse gas emissions, scientists are reporting. Their study, which measured differences in energy demands at the household level, appears in the ACS journal Environmental Science & Technology

the new collective McMansion
McMansion (Photo credit: opacity)
Dominik Saner and colleagues point out that the energy people use to power their homes and to satisfy their mobility needs accounts for more than 70 percent of emissions of carbon dioxide, the main greenhouse gas involved in global climate change. To cope with that problem, policymakers and environmentalists have focused largely on the supply side, for instance, electric power plants, heating systems and cars that release carbon dioxide into the atmosphere. Saner and his team decided to take a close look at the other end of the equation - how energy consumption for housing and land-based mobility at the household level impacts greenhouse gas emissions. 

Their study of more than 3,000 households in a Swiss town found that only 21 percent of the households accounted for almost 50 percent of greenhouse gas emissions. The biggest factors contributing to a few families having a disproportionately large environmental footprint were large living spaces (which use energy for heating, lighting and cooling) and long commutes in private vehicles. "If their emissions could be halved, the total emissions of the community would be reduced by 25 percent," the scientists concluded.

The authors acknowledge funding from the Competence Center for Energy & Mobility and Swisselectric Research. Original article: ACS Publications.

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Energy-Efficient Manufactured Homes 

Like site-built homes, new manufactured homes (formerly known as mobile homes) can be designed for energy efficiency and renewable energy. You can also remodel or retrofit older manufactured homes to improve energy efficiency and/or add renewable energy equipment. Manufactured homes are built in a factory on a permanent chassis, then transported to a building site and installed.


Manufactured Home Energy-Efficient Retrofit Measures

There are many differences between manufactured (mobile) homes built before the U.S. Department of Housing and Urban Development (HUD) Code took effect in 1976 and those built afterward. If you have a pre-1976 manufactured (mobile) home, you can make the following energy efficiency improvements to reduce heat loss:

  • Install energy-efficient windows and doors
  • Add insulation to the belly
  • Make general repairs (caulking, ducts, etc.)
  • Add insulation to your walls
  • Install insulated skirting
  • Install a belly wrap
  • Add insulation to your roof or install a roof cap.

Experiments conducted on pre-1976 manufactured homes by the National Renewable Energy Laboratory (NREL) from 1988 to 1991 found that these retrofit measures resulted in a 31% reduction in heating fuel usage.


Exterior of a modern manufactured home
Exterior of a manufactured home (Image: Wikipedia)
There are three common methods used to add roof insulation to the existing cavity: drilling and tube blowing from the inside, drilling and tube blowing from the top, and rolling back the roof and blowing into the now open cavity. Instead of filling the existing cavity, some installers prefer to use roof caps for insulating.

Although the insulating performance of roof caps is inferior to blown-in insulation, they come in kits that include insulation boards (usually of dense fiberglass) with a synthetic rubber or metal covering. Roof caps can insulate the roof to R-19 without disturbing the existing roof, and if all leaks in the old roof covering are sealed, the old roof acts as a vapor retarder, eliminating moisture problems and the need for ventilation. Be aware that rolling back the roof to add insulation can lead to realignment problems and leaks, necessitating mechanical ventilation to alleviate moisture condensation problems in the roof cavity.

Blowing loose-fill insulation into an existing manufactured home is difficult because of the narrowness of the wall and roof cavities. Pre-1976 home walls often have only 2-inch by 2-inch studs (5.08 cm × 5.08 cm) (new manufactured houses are required to have at least 2-inch by 4-inch [5.08 cm × 10.16 cm] studs), and roof trusses complicate the process of adding more roof insulation.

Blowing insulation into wall or ceiling cavities and/or installing roof caps is a job for a trained professional with proper equipment. Neither activity should be attempted by even the most capable do-it-yourselfer, as permanent structural damage and/or personal injury could easily result. A good source for a recommendation of a capable contractor-installer would probably be the Weatherization Department of your local Community Action Agency.

To further improve your manufactured home's energy efficiency, consider:


You can use renewable energy to provide electricity, heating, and cooling for your manufactured home. Renewable energy systems not only lower energy costs, but also reduce pollution from fossil fuels.

You might consider:

  • Installing a geothermal heat pump (GHP), which can provide space heating and cooling. GHPs are most cost-effective to install at the same time as the manufactured home. The systems can’t be moved, so GHPs only work for permanently sited manufactured homes.
  • Using passive solar design by adding a sunspace, orienting the home to maximize solar exposure, landscaping for energy efficiency, and using shading devices.
  • Investigating solar water heating. Although the lightweight construction of some manufactured homes limits roof support for heavy solar collectors, you can use lightweight roof-mounted air collectors for water heating or install the heavier liquid-type solar collectors on the ground. These systems are best suited for manufactured homes that are seldom moved.
  • Installing solar electric or photovoltaic (PV) systems, which are light enough to install on the roof of a manufactured home.
  • Installing a small wind electric system to generate electricity if your manufactured home is or will be located in a rural area on at least one acre of land.
  • Installing a microhydropower system to generate electricity if your manufactured home is or will be located where you have access to flowing water. Although you can move a microhydropower system, you can't take the hydropower resource with you, which makes these systems best suited for permanently sited manufactured homes.

Manufactured Home HUD Code Requirements

Manufactured homes are subject to the Manufactured Home Construction and Safety Standards or “HUD Code” rather then local building codes, and display a red certification label on the exterior of each transportable section. The HUD code is a set of manufactured home industry standards published and maintained by HUD that establishes standards for design and construction, strength and durability, fire resistance, energy efficiency, transportability, and quality control. It also sets performance standards for the heating and air conditioning, plumbing, thermal, and electrical systems.

For more information, visit the Manufactured Housing Institute and the HUD Homes and Communities FAQ section. Original article via the Department of Energy.

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