Eco-Friendly
Target Windows & Doors, Inc.
Committed to Being Eco-Friendly…
- Superior Quality which reflects our usage of the finest engineering and extrusions, with multi-chambered designs for excellent strength, durability and insulating qualities!
- Windows™ with Duralite™ warm edge (the best thermal air spacer insulating system available), High Performance Cardinal LowE/Argon insulated glass and innovative vinyl extrusion designs efficiently insulate homes, greatly reducing energy consumption and saving homeowners hundreds of dollars per year in energy costs!
- Environmentally Friendly by reducing your carbon footprint utilizing Envirosealed Spacer Systems on all our insulated glass!
- A Family Owned Company that is committed to help protect our environment through recycling all possible materials and reducing our own carbon footprint!
- Energy Star Approved Products - All our windows exceed the Energy Star Criteria!
The Sustainability of Vinyl…
Vinyl & the Environment
THE ENERGY AND ENVIRONMENTAL BENEFITS
OF PVC BUILDING PRODUCTS
PVC building products have numerous energy and environmental benefits. Since the late 1980s, more than 20 life-cycle evaluations have been completed on PVC building products, many of them comparing those products to similar products made of other materials. PVC products were found to perform favorably in terms of energy efficiency, thermal-insulating value, low contribution to greenhouse gases and product durability, which means using fewer resources.
EXAMPLES:
Energy efficiency and reduced greenhouse gas emissions. PVC saves energy and reduces CO2 emissions. PVC takes less energy to produce than many competing products, and 20 percent less than other plastics. PVC also saves fossil fuels. Its principal raw material (nearly 60 percent) is chlorine derived from common salt. PVC building products are highly energy-efficient. For example:
* ENERGY STAR roofing membranes made of PVC reflect solar energy
* ENERGY STAR vinyl window frames conserve energy
* PVC pipe requires less energy to pump water
Durability. PVC building products are highly durable, which conserves resources. They will not rot or corrode like many other materials and do not need cleaning with harsh chemicals or frequent painting.
Recycling. PVC is inherently recyclable. More than 1 billion pounds are recycled annually (mostly post-industrial), according to a recent study. Many carpet manufacturers using PVC backing have highly successful recycling programs, including C&A Floorcoverings (which has recycled more than 100 million pounds of vinyl backed carpet). The Vinyl Institute recently won an award from WasteCap Wisconsin for support for recycling vinyl siding cutoffs at job sites.
Water savings. 2.3 trillion gallons of treated water are lost every year because of leaks from aging, corroded metal pipes. Because PVC pipes do not corrode and have among the lowest pipe breaks, they save precious water resources.
Life cycle analysis. PVC’s impacts on the environment are comparable to or lower than most alternatives. A 2004 study of environmental life-cycle analyses (LCAs) of PVC and competing building materials by the European Commission (EC) found that PVC offers environmental benefits equal to or better than those of other materials in many applications1. The USGBC PVC Task Group reached similar conclusions in its draft report issued December 2004.
What about…
Dioxin? PVC is an extremely small source of dioxin, so small that levels in the environment would be essentially unchanged even if vinyl were not being manufactured and used every day in important products. The proof: dioxin levels in the environment have been declining for decades, according to data from the U.S. Environmental Protection Agency. During this time, production and use of vinyl have soared.
Worker Safety? OSHA statistics show that injury and illness rates among PVC workers are significantly less than the manufacturing average. In the 1970s, industry scientists discovered that vinyl chloride, a chemical used to make PVC, could cause angiosarcoma, a rare form of liver cancer, in workers exposed at that time to very high doses. This led to a complete overhaul of the PVC production process, which became essentially a closed loop, recycling wastes back into production and minimizing worker exposure. The U.S. Occupational Safety and Health Administration issued strict regulations in 1975, and there have been no documented cases of angiosarcoma among PVC production workers whose careers in the industry began after the new regulations were promulgated.
Indoor Air? Odors and “offgassing” from building products are generally due to dyes, adhesive, and additives. Many building-product manufacturers today are working to reduce use of volatile chemicals and release of odors. Resilient vinyl flooring that qualifies under the Resilient Floor Covering Institute’s FloorScore™ program can be certified to help obtain the Green Building Council’s indoor air credit under the LEED rating system. PVC-backed carpet can meet the comparable Green Label program of the Carpet & Rug Institute.
Vinyl Use in Building and Construction
Approximately 76 percent of PVC is used in building and construction applications2. Please see the links at right for overviews of the major types of PVC building products and the reasons they are used.
PVC’s durability is an important environmental benefit, because the longer a product lasts, the less energy and other resources must be expended to make and install replacement products. PVC also conserves energy in manufacture and more importantly in use.
Vinyl building and construction applications are typically divided into rigid and flexible categories. The use of plasticizers differentiates flexible vinyl products from rigid. Generally speaking, PVC materials would be classified as rigid when plasticizers have not been added to the resin, such as pipe, siding, windows, and fence, deck and rail. PVC flooring, wallcovering and reflective roofing are classified as flexible, and are available in a multitude of styles and colors.
1 http://ec.europa.eu/enterprise/chemicals/sustdev/pvc-final_report_lca.pdf
2 The Resin Review: The Annual Statistical Report of the U.S. Plastics Industry, American Plastics Council 2002
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