Laserfiche WebLink
• Glass bottles and jars are 100% recyclable and can be recycled endlessly without any <br />loss in purity or quality. <br />• Over a ton of natural resources are saved for every ton of glass recycled. <br />• Energy costs drop about 2-3% for every 10% recycled glass, also called cullet, used in the <br />manufacturing process. <br />• One ton of carbon dioxide is reduced for every six tons of recycled container glass used <br />in the manufacturing process. <br />ENVIRONMENTAL BENEFITS <br />The environmental benefits of Roseville's zero -waste recycling program are quantified <br />transparently using widely -accepted environmental models. This ensures that all residents have <br />a chance to see how their efforts can be measured and quantified. <br />There are many ways to calculate the benefits of recycling. To better explain these benefits it <br />commonly understood terms government agencies, research scientists, and economists have <br />created several "calculators" to translate the amounts of recycled materials collected, and <br />processed into equivalent positive societal and environmental benefits. <br />Because of the increasing societal focus on causes of and solutions to, climate change, it has <br />become imperative to measure waste reduction (and all of our activities) in terms of its impact <br />on the environment. This allows us to speak in a common language, understand the impact of <br />our choices, and help us prioritize the personal and policy actions that we take. Many cities <br />around the country work with the International Council for Local Environmental Initiatives <br />(ICLEI) to quantify and now register the climate change impacts of their city. It is also important <br />to calculate the carbon impact of waste reduction as the global effort continues to enact a <br />carbon "cap and trade" system. <br />In addition to climate change mitigation, there are other environmental benefits to recycling, <br />including saving energy, protecting air quality, water quality, natural resources, natural beauty, <br />habitat, and human health. <br />The Environmental Protection Agency (EPA) WARM Calculator <br />The equations used in environmental calculations try to take into account the "full life cycle" of <br />each material—everything from off -setting the demand for more virgin materials (tree <br />harvesting, mining, etc.) to preventing the pollution that would have occurred if that material <br />were disposed of (burned or buried). Different calculators may include some or all of the many <br />factors that contribute to the "full life cycle" so results will vary from calculator to calculator. <br />While there are many models emerging to calculate greenhouse gas reductions, the most <br />recognized, and standard model is the U.S. Environmental Protection Agency's Waste <br />Reduction Model (WARM). WARM was designed to help solid waste planners and organizations <br />11 <br />