Eco Audit White Paper. - Granta Design
Eco Audit White Paper. - Granta Design Eco Audit White Paper. - Granta Design
Use:Energy and CO2 SummaryStatic modeEnergy input and output typeUse locationElectric to mechanical(electric motors)WorldPower rating (kW) 0.12Usage (hours per day) 24Usage (days per year) 2Product life (years) 1Relative contribution of static and mobile modesMode Energy (MJ) %Static 51 100.0Mobile 0Total 51 100Disposal:Energy and CO2 SummaryComponentEnd of lifeoptionEnergy(MJ)%Bottles (100 units) Recycle 2.8 99.3Caps(100 units) Landfill 0.02 0.7Dead weight (100 litres of water) None 0 0.0Total 2.8 100EoL potential:ComponentEnd of lifeoptionEnergy(MJ)%Bottles (100 units) Recycle -1.9e+02 100.0Caps(100 units) Landfill 0 0.0Dead weight (100 litres of water) None 0 0.0Total -1.9e+02 100Notes:Energy and CO2 SummaryStatic Mode: Energy used to refrigerate product at point of saleEnergy required to refrigerate 100 bottles at 4°C = 0.12kWBottled mineral water(Levels 1&2).prdNOTE: Differences of less than 20% are not usually significant. Page 3 of 5See notes on precision and data sources. 12 October 2011
Eco Audit ReportCO2 Footprint AnalysisEnergy and CO2 SummaryCO2 (kg)/yearEquivalent annual environmental burden (averaged over 1 year product life): 22.2Detailed breakdown of individual life phasesMaterial:Energy and CO2 SummaryComponentBottles (100 units)MaterialPolyethylene terephthalate(PET)Recycledcontent* (%)Partmass(kg)Qty.Total massCO2footprint(kg)Virgin (0%) 4 1 4 9.3 97.2%Caps(100 units) Polypropylene (PP) Virgin (0%) 0.1 1 0.1 0.27 2.8Dead weight (100 litres ofwater)1e+02 1 1e+02 0 0.0Total 3 1e+02 9.6 100*Typic: Includes 'recycle fraction in current supply'Manufacture:Energy and CO2 SummaryComponent Process Amount processedCO2footprint(kg)%Bottles (100 units) Polymer molding 4 kg 5.7 97.3Caps(100 units) Polymer molding 0.1 kg 0.16 2.7Total 5.9 100Transport:Energy and CO2 SummaryBreakdown by transport stageTotal product mass = 1e+02 kgStage name Transport type Distance (km)CO2 footprint(kg)%Filling plant - Point of sale 14 tonne truck 5.5e+02 3.5 100.0Total 5.5e+02 3.5 100Breakdown by componentsComponentComponent mass (kg)CO2 footprint(kg)%Bottles (100 units) 4 0.13 3.8Caps(100 units) 0.1 0.0033 0.1Bottled mineral water(Levels 1&2).prdNOTE: Differences of less than 20% are not usually significant. Page 4 of 5See notes on precision and data sources. 12 October 2011
- Page 2 and 3: Contents1. Introduction ...........
- Page 4 and 5: Figure 2.Despite the formalism that
- Page 6 and 7: 60% or more of the energy—often m
- Page 8 and 9: combustion, not an option for steel
- Page 10 and 11: Figure 8. The 1 st -life energy and
- Page 12 and 13: ecycle energy and recycle fraction
- Page 14 and 15: Figure 12. The energy and carbon ba
- Page 16 and 17: A portable space heaterThe space he
- Page 18 and 19: 6. Summary and conclusionsEco aware
- Page 20 and 21: Eco Audit ReportProduct NameBottled
- Page 24: Dead weight (100 litres of water) 1
<strong>Eco</strong> <strong>Audit</strong> ReportCO2 Footprint AnalysisEnergy and CO2 SummaryCO2 (kg)/yearEquivalent annual environmental burden (averaged over 1 year product life): 22.2Detailed breakdown of individual life phasesMaterial:Energy and CO2 SummaryComponentBottles (100 units)MaterialPolyethylene terephthalate(PET)Recycledcontent* (%)Partmass(kg)Qty.Total massCO2footprint(kg)Virgin (0%) 4 1 4 9.3 97.2%Caps(100 units) Polypropylene (PP) Virgin (0%) 0.1 1 0.1 0.27 2.8Dead weight (100 litres ofwater)1e+02 1 1e+02 0 0.0Total 3 1e+02 9.6 100*Typic: Includes 'recycle fraction in current supply'Manufacture:Energy and CO2 SummaryComponent Process Amount processedCO2footprint(kg)%Bottles (100 units) Polymer molding 4 kg 5.7 97.3Caps(100 units) Polymer molding 0.1 kg 0.16 2.7Total 5.9 100Transport:Energy and CO2 SummaryBreakdown by transport stageTotal product mass = 1e+02 kgStage name Transport type Distance (km)CO2 footprint(kg)%Filling plant - Point of sale 14 tonne truck 5.5e+02 3.5 100.0Total 5.5e+02 3.5 100Breakdown by componentsComponentComponent mass (kg)CO2 footprint(kg)%Bottles (100 units) 4 0.13 3.8Caps(100 units) 0.1 0.0033 0.1Bottled mineral water(Levels 1&2).prdNOTE: Differences of less than 20% are not usually significant. Page 4 of 5See notes on precision and data sources. 12 October 2011