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[company logo here] [company name here] [city, state here] [company url here] Sustainability Report [name] ∙ [title] ∙ ∙ [email address] ∙ (###) ###-#### Model Name: Guide_cup_original Material: PET Recycled content: 0.00 % Weight: 20.00 g Manufacturing process: Injection Molded Surface Area: 77061.47 mm² Built to last: 1.0 year Duration of use: 1.0 year Manufacturing Region The choice of manufacturing region determines the energy sources and technologies used in the modeled material creation and manufacturing steps of the product’s life cycle. Use Region The use region is used to determine the energy sources consumed during the product’s use phase (if applicable) and the destination for the product at its end-of-life. Together with the manufacturing region, the use region is also used to estimate the environmental impacts associated with transporting the product from its manufacturing location to its use location. Summary Learn more about Life Cycle Assessment Sustainability Report Model Name: Guide_cup_original Material: PET Weight: 20.00 g Manufacturing process: Surface Area: 77061.47 mm² Injection Molded Recycled content: 0.00 % Built to last: 1.0 year Duration of use: 1.0 year Material PET 0.00 % Material Unit Cost 2.20 USD/kg Manufacturing Region: Asia Process: Injection Molded Electricity consumption: 1.8 kWh/lbs Natural gas consumption: 0.00 BTU/lbs Scrap rate: 2.0 % Built to last: 1.0 year Part is painted: No Paint Use Region: Asia Duration of use: 1.0 year Transportation Truck distance: 1600 km Train distance: 0.00 km Ship distance: 0.00 km Airplane Distance: 0.00 km End of Life Recycled: 15 % Incinerated: 2.0 % Landfill: 83 % Comments Click here for alternative units such as ‘Miles Driven in a Car’ Sustainability Report Model Name: Guide_cup_original Material: PET Weight: 20.00 g Manufacturing process: Surface Area: 77061.47 mm² Injection Molded Recycled content: 0.00 % Built to last: 1.0 year Duration of use: 1.0 year Environmental Impact (calculated using CML impact assessment methodology) Carbon Footprint Material: 0.060 kg CO2e Manufacturing: 0.042 kg CO2e Transportation: 1.6E-3 kg CO2e End of Life: 0.012 kg CO2e 0.116 kg CO2e Total Energy Consumed Material: 1.6 MJ Manufacturing: 0.422 MJ Transportation: 0.022 MJ End of Life: 8.7E-3 MJ 2.1 MJ Air Acidification Material: 1.1E-4 kg SO2e Manufacturing: 6.0E-4 kg SO2e Transportation: 8.1E-6 kg SO2e End of Life: 4.8E-6 kg SO2e 7.2E-4 kg SO2e Water Eutrophication Material: 1.0E-5 kg PO4e Manufacturing: 2.3E-5 kg PO4e Transportation: 1.6E-6 kg PO4e End of Life: 2.0E-5 kg PO4e 5.5E-5 kg PO4e Material Financial Impact 0.00 USD Comments Click here for alternative units such as ‘Miles Driven in a Car’ Sustainability Report Sustainability Report Glossary Air Acidification - Sulfur dioxide, nitrous oxides other acidic emissions to air cause an increase in the acidity of rainwater, which in turn acidifies lakes and soil. These acids can make the land and water toxic for plants and aquatic life. Acid rain can also slowly dissolve manmade building materials such as concrete. This impact is typically measured in units of either kg sulfur dioxide equivalent (SO2), or moles H+ equivalent. Carbon Footprint - Carbon-dioxide and other gasses which result from the burning of fossil fuels accumulate in the atmosphere which in turn increases the earth’s average temperature. Carbon footprint acts as a proxy for the larger impact factor referred to as Global Warming Potential (GWP). Global warming is blamed for problems like loss of glaciers, extinction of species, and more extreme weather, among others. Total Energy Consumed - A measure of the non-renewable energy sources associated with the part’s lifecycle in units of megajoules (MJ). This impact includes not only the electricity or fuels used during the product’s lifecycle, but also the upstream energy required to obtain and process these fuels, and the embodied energy of materials which would be released if burned. Total Energy Consumed is expressed as the net calorific value of energy demand from non-renewable resources (e.g. petroleum, natural gas, etc.). Efficiencies in energy conversion (e.g. power, heat, steam, etc.) are taken into account. Water Eutrophication - When an over abundance of nutrients are added to a water ecosystem, eutrophication occurs. Nitrogen and phosphorous from waste water and agricultural fertilizers causes an overabundance of algae to bloom, which then depletes the water of oxygen and results in the death of both plant and animal life. This impact is typically measured in either kg phosphate equivalent (PO4) or kg nitrogen (N) equivalent. Life Cycle Assessment (LCA) - This is a method to quantitatively assess the environmental impact of a product throughout its entire lifecycle, from the procurement of the raw materials, through the production, distribution, use, disposal and recycling of that product. Material Financial Impact - This is the financial impact associated with the material only. The mass of the model is multiplied by the financial impact unit (units of currency/units of mass) to calculate the financial impact (in units of currency). Learn more about Life Cycle Assessment uploads/Ingenierie_Lourd/ guide-cup-original.pdf