232abbcf-1eef-4d37-9979-7059bc81c05dHot asphalt installation of SBS-modified bitumen (asphalt) roofing membrane - ARMA (A5)Hot asphalt installation of SBS-modified bitumen roofing membrane (1 m2)single route, at plant10.6 kg/m2 total weight of cap sheet, base sheet, and ancillary materialshot applied; hot mopped; hot bitumen; styrene-butadiene-styrene; mod bit; MBStyrene-butadiene-stryene (SBS)-modified bitumen (asphalt) roofing cap sheet - ARMA (A1-A3)Styrene-butadiene-stryene (SBS)-modified bitumen (asphalt) roofing base sheet - ARMA (A1-A3)Materials productionOther materialsThis data set represents the hot asphalt installation of the SBS cap sheet and base sheet and should be used in combination with those datasets.
It contains the results for the module A5 according to EN 15804 and the PCR: Asphalt Shingles, Built-up Asphalt Membrane Roofing and Modified Bituminous Membrane Roofing. It includes the installation into the building during the construction of the building, including both the provision of all materials, products and energy as well as the complete treatment of waste or residual waste at the building stage. This information module also contains effects and aspects that are associated with losses at the building stage (e.g. waste treatment and disposal of waste and material losses as well as the transport thereof).
A comparison with other products is only allowed by a similar application in the building. In principle, a comparison or evaluation of EPD data is only possible if all the datasets are created to be compared to EN 15804 and the product-specific features are considered.0The dataset represents the typical (based on expert input) hot asphalt installation of the low-slope SBS-modified bitumen roofing membrane in the United States and/or Canada.Foreground system:
Hot-mopped SBS installation requires hot asphalt to be first mopped onto the roof surface and the SBS-modified bitumen base sheet to be unrolled directly into the asphalt and pressed into place. This same process is used to install the SBS-modified bitumen cap sheet on top of the base sheet. A weighted roller follows the sheet, securing the seam. Mineral granules are applied to the asphalt that has migrated out of the cap sheet seams to protect it from UV and for aesthetic reasons.
Background system:
Electricity: Electricity is modelled according to the individual country-specific situations. The country-specific modelling is achieved on multiple levels. Firstly, individual energy carrier specific power plants and plants for renewable energy sources are modelled according to the current national electricity grid mix. Modelling the electricity consumption mix includes transmission / distribution losses and the own use by energy producers (own consumption of power plants and "other" own consumption e.g. due to pumped storage hydro power etc.), as well as imported electricity. Secondly, the national emission and efficiency standards of the power plants are modelled as well as the share of electricity plants and combined heat and power plants (CHP). Thirdly, the country-specific energy carrier supply (share of imports and / or domestic supply) including the country-specific energy carrier properties (e.g. element and energy content) are accounted for. Fourthly, the exploration, mining/production, processing and transport processes of the energy carrier supply chains are modelled according to the specific situation of each electricity producing country. The different production and processing techniques (emissions and efficiencies) in the different energy producing countries are considered, e.g. different crude oil production technologies or different flaring rates at the oil platforms.
Thermal energy, process steam: The thermal energy and process steam supply is modelled according to the individual country-specific situation with regard to emission standards and considered energy carriers. The thermal energy and process steam are produced at heat plants. Efficiencies for thermal energy production are by definition 100% in relation to the corresponding energy carrier input. For process steam the efficiency ranges from 85%, 90% to 95%. The energy carriers used for the generation of thermal energy and process steam are modelled according to the specific import situation (see electricity above).
Transports: All relevant and known transport processes are included. Ocean-going and inland ship transport as well as rail, truck and pipeline transport of bulk commodities are considered.
Energy carriers: The energy carriers are modelled according to the specific supply situation (see electricity above).
Refinery products: Diesel fuel, gasoline, technical gases, fuel oils, lubricants and residues such as bitumen are modelled with a parameterised country-specific refinery model. The refinery model represents the current national standard in refining techniques (e.g. emission level, internal energy consumption, etc.) as well as the individual country-specific product output spectrum, which can be quite different from country to country. The supply of crude oil is modelled, again, according to the country-specific situation with the respective properties of the resources.Hot-mopped SBS installation requires hot asphalt to be first mopped onto the roof surface and the SBS-modified bitumen base sheet to be unrolled directly into the asphalt and pressed into place. This same process is used to install the SBS-modified bitumen cap sheet on top of the base sheet. A weighted roller follows the sheet, securing the seam. Mineral granules are applied to the asphalt that has migrated out of the cap sheet seams to protect it from UV and for aesthetic reasons.Partly terminated systemAttributionalNoneAllocation - market valueAllocation - net calorific valueAllocation - exergetic contentAllocation - massForeground system:
All packaging waste generated during installation, as well as 40% of the wooden pallets used for shipping of products, are assumed to be sent to landfill and the system credited with any avoided production of electricity generated from the combustion of landfill gas.
Background system: For the combined heat and power production, allocation by exergetic content is applied. For the electricity generation and by-products, e.g. gypsum, allocation by market value is applied due to no common physical properties. Within the refinery allocation by net calorific value and mass is used. For the combined crude oil, natural gas and natural gas liquids production allocation by net calorific value is applied.
For details please see the document "GaBi Databases Modelling Principles"Direct land use change: GHG emissions from direct LUC allocated to good/service for 20 years after the LUC occurs.
Carbon storage and delayed emissions: credits associated with temporary (carbon) storage or delayed emissions are not considered in the calculation of the Global Warming Potential impacts for the default impact categories.
Emissions off-setting: not included
Fossil and biogenic carbon emissions and removals: removals and emissions are modelled as follows: All GHG emissions from fossil fuels (including peat and limestone) are modelled consistently with the ILCD list of elementary flows. In the case that the emissions refer to the molecules CO2 and CH4, they are modelled as ‘carbon dioxide (fossil)’ and ‘methane (fossil)’. Biogenic uptake and emissions are modelled separately. For land use change, all carbon emissions and uptakes are inventoried separately for each of the elementary flows. Soil carbon accumulation (uptake) via improved agricultural management is excluded from the model.NoneGaBi Modelling PrinciplesGaBi Water Modelling PrinciplesCut-off rules for each unit process: Coverage of at least 95 % of mass and energy of the input and output flows, and 98 % of their environmental relevance (according to expert judgement).
For further details please see the document "GaBi Databases Modelling Principles"NoneLCI modelling is fully consistent. For details please see the document "GaBi Databases Modelling Principles"
Primary data was not collected for this installation dataset (excepting the weight of the base and cap sheets used). Rather, expert judgment and research were used in development.NoneFor details please see the document "GaBi Databases Modelling Principles"NoneGaBi databases75.0Not applicable2013-2014NoneA5: The environmental profile includes expenses for the construction process stage. A5 is installation into the building.
This dataset on installation should be used in combination with the SBS cap and base sheet datasets. The EoL scenario used for the EPDs assumes 100% landfill.All relevant flows quantifiedPrimary energy from non renewable resources (gross cal. value)Primary energy from non renewable resources (net cal. value)Primary energy from renewable resources (gross cal. value)Primary energy from renewable resources (net cal. value)Primary energy demand from ren. and non ren. resources (net cal. value)Primary energy demand from ren. and non ren. resources (gross cal. value)TRACI 2.1, Ecotoxicity (recommended)TRACI 2.1, Human toxicity, cancer (recommended)TRACI 2.1, Human toxicity, non-canc. (recommended)TRACI 2.1, Global Warming Air, excl. biogenic carbonTRACI 2.1, Resources, Fossil fuelsTRACI 2.1, Human Health Particulate AirUSEtox, Ecotoxicity (recommended)USEtox, Human toxicity, cancer (recommended)TRACI 2.1, Ozone Depletion AirTRACI 2.1, Smog AirUSEtox, Human toxicity, non-canc. (recommended)Total freshwater consumption (including rainwater)Blue water consumptionBlue water useTotal freshwater useReCiPe 1.08 Endpoint (H) - Agricultural land occupationReCiPe 1.08 Endpoint (H) - Climate change Ecosystems, default, excl biogenic carbonReCiPe 1.08 Endpoint (H) - Climate change Human Health, default, excl biogenic carbonReCiPe 1.08 Endpoint (H) - Fossil depletionReCiPe 1.08 Endpoint (H) - Freshwater ecotoxicityReCiPe 1.08 Endpoint (H) - Freshwater eutrophicationReCiPe 1.08 Endpoint (H) - Human toxicityReCiPe 1.08 Endpoint (H) - Ionising radiationReCiPe 1.08 Endpoint (H) - Marine ecotoxicityReCiPe 1.08 Endpoint (H) - Metal depletionReCiPe 1.08 Endpoint (I) - Natural land transformationReCiPe 1.08 Endpoint (H) - Ozone depletionReCiPe 1.08 Endpoint (H) - Particulate matter formationReCiPe 1.08 Endpoint (H) - Photochemical oxidant formationReCiPe 1.08 Endpoint (H) - Terrestrial acidificationReCiPe 1.08 Endpoint (H) - Terrestrial ecotoxicityReCiPe 1.08 Endpoint (H) - Urban land occupationReCiPe 1.08 Midpoint (H) - Agricultural land occupationReCiPe 1.08 Midpoint (H) - Climate change, default, excl biogenic carbonReCiPe 1.08 Midpoint (H) - Fossil depletionReCiPe 1.08 Midpoint (H) - Freshwater ecotoxicityReCiPe 1.08 Midpoint (H) - Freshwater eutrophicationReCiPe 1.08 Midpoint (H) - Human toxicityReCiPe 1.08 Midpoint (H) - Ionising radiationReCiPe 1.08 Midpoint (H) - Marine ecotoxicityReCiPe 1.08 Midpoint (H) - Marine eutrophicationReCiPe 1.08 Midpoint (H) - Metal depletionReCiPe 1.08 Midpoint (H) - Natural land transformationReCiPe 1.08 Midpoint (I) - Ozone depletionReCiPe 1.08 Midpoint (H) - Particulate matter formationReCiPe 1.08 Midpoint (H) - Photochemical oxidant formationReCiPe 1.08 Midpoint (H) - Terrestrial acidificationReCiPe 1.08 Midpoint (H) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (H) - Urban land occupationReCiPe 1.08 Midpoint (H) - Water depletionReCiPe 1.08 Midpoint (I) - Climate change, default, excl biogenic carbonReCiPe 1.08 Midpoint (E) - Climate change, default, excl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, default, excl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Human Health, default, excl biogenic carbonReCiPe 1.08 Endpoint (E) - Climate change Ecosystems, default, excl biogenic carbonReCiPe 1.08 Endpoint (E) - Climate change Human Health, default, excl biogenic carbonReCiPe 1.08 Endpoint (I) - Freshwater eutrophicationReCiPe 1.08 Midpoint (I) - Freshwater eutrophicationReCiPe 1.08 Endpoint (E) - Freshwater eutrophicationReCiPe 1.08 Midpoint (E) - Freshwater eutrophicationReCiPe 1.08 Midpoint (E) - Marine eutrophicationReCiPe 1.08 Midpoint (I) - Marine eutrophicationReCiPe 1.08 Endpoint (I) - Ozone depletionReCiPe 1.08 Midpoint (H) - Ozone depletionReCiPe 1.08 Endpoint (E) - Ozone depletionReCiPe 1.08 Midpoint (E) - Ozone depletionReCiPe 1.08 Endpoint (I) - Terrestrial acidificationReCiPe 1.08 Midpoint (I) - Terrestrial acidificationReCiPe 1.08 Endpoint (E) - Terrestrial acidificationReCiPe 1.08 Midpoint (E) - Terrestrial acidificationReCiPe 1.08 Endpoint (I) - Photochemical oxidant formationReCiPe 1.08 Midpoint (I) - Photochemical oxidant formationReCiPe 1.08 Endpoint (E) - Photochemical oxidant formationReCiPe 1.08 Midpoint (E) - Photochemical oxidant formationReCiPe 1.08 Endpoint (I) - Particulate matter formationReCiPe 1.08 Midpoint (I) - Particulate matter formationReCiPe 1.08 Endpoint (E) - Particulate matter formationReCiPe 1.08 Midpoint (E) - Particulate matter formationReCiPe 1.08 Endpoint (I) - Ionising radiationReCiPe 1.08 Midpoint (I) - Ionising radiationReCiPe 1.08 Endpoint (E) - Ionising radiationReCiPe 1.08 Midpoint (E) - Ionising radiationReCiPe 1.08 Endpoint (I) - Agricultural land occupationReCiPe 1.08 Endpoint (I) - Urban land occupationReCiPe 1.08 Midpoint (I) - Agricultural land occupationReCiPe 1.08 Midpoint (I) - Urban land occupationReCiPe 1.08 Endpoint (E) - Agricultural land occupationReCiPe 1.08 Endpoint (E) - Urban land occupationReCiPe 1.08 Midpoint (E) - Agricultural land occupationReCiPe 1.08 Midpoint (E) - Urban land occupationReCiPe 1.08 Endpoint (H) - Natural land transformationReCiPe 1.08 Midpoint (I) - Natural land transformationReCiPe 1.08 Endpoint (E) - Natural land transformationReCiPe 1.08 Midpoint (E) - Natural land transformationReCiPe 1.08 Endpoint (I) - Fossil depletionReCiPe 1.08 Midpoint (E) - Fossil depletionReCiPe 1.08 Endpoint (E) - Fossil depletionReCiPe 1.08 Midpoint (I) - Fossil depletionReCiPe 1.08 Endpoint (I) - Metal depletionReCiPe 1.08 Midpoint (I) - Metal depletionReCiPe 1.08 Endpoint (E) - Metal depletionReCiPe 1.08 Midpoint (E) - Metal depletionReCiPe 1.08 Midpoint (E) - Water depletionReCiPe 1.08 Midpoint (I) - Water depletionReCiPe 1.08 Endpoint (I) - Freshwater ecotoxicityReCiPe 1.08 Endpoint (I) - Human toxicityReCiPe 1.08 Endpoint (I) - Marine ecotoxicityReCiPe 1.08 Endpoint (I) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (I) - Freshwater ecotoxicityReCiPe 1.08 Midpoint (I) - Human toxicityReCiPe 1.08 Midpoint (I) - Marine ecotoxicityReCiPe 1.08 Midpoint (I) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (E) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (E) - Marine ecotoxicityReCiPe 1.08 Midpoint (E) - Human toxicityReCiPe 1.08 Midpoint (E) - Freshwater ecotoxicityReCiPe 1.08 Endpoint (E) - Terrestrial ecotoxicityReCiPe 1.08 Endpoint (E) - Marine ecotoxicityReCiPe 1.08 Endpoint (E) - Human toxicityReCiPe 1.08 Endpoint (E) - Freshwater ecotoxicityAnthropogenic Abiotic Depletion Potential (AADP), TU BerlinReCiPe 1.08 Midpoint (H) - Climate change, incl biogenic carbonReCiPe 1.08 Endpoint (H) - Climate change Ecosystems, incl biogenic carbonReCiPe 1.08 Endpoint (H) - Climate change Human Health, incl biogenic carbonReCiPe 1.08 Endpoint (E) - Climate change Ecosystems, incl biogenic carbonReCiPe 1.08 Endpoint (E) - Climate change Human Health, incl biogenic carbonReCiPe 1.08 Midpoint (E) - Climate change, incl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, incl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Human Health, incl biogenic carbonReCiPe 1.08 Midpoint (I) - Climate change, incl biogenic carbonTRACI 2.1, Global Warming Air, incl. biogenic carbonTRACI 2.1, AcidificationTRACI 2.1, EutrophicationUBP 2013, Global warmingUBP 2013, Pesticides into soilUBP 2013, Radioactive waste to depositUBP 2013, Radioactive substances into airUBP 2013, Water resourcesUBP 2013, Energy resourcesUBP 2013, Water pollutantsUBP 2013, Heavy metals into soilUBP 2013, Mineral resourcesUBP 2013, POP into waterUBP 2013, Radioactive substances into waterUBP 2013, Carcinogenic substances into airUBP 2013, Heavy metals into airUBP 2013, Land useUBP 2013, Heavy metals into waterUBP 2013, Main air pollutantsUBP 2013, Ozone layer depletionUBP 2013, Non radioactive waste to depositThe LCI method applied is in compliance with ISO 14040 and 14044. The documentation includes all relevant information in view of the data quality and scope of the application of the respective LCI result / data set. The dataset represents the state-of-the-art in view of the referenced functional unit.Sphera Solutions GmbHOverall quality according to different validation schemes
GaBi = 1,3 interpreted into "very good overall quality" in the GaBi quality validation scheme
The EPD has been verified by an indipendent reviewer, who was organized by the IBU.IBUThis EPD dataset represents the specific product, producer and phase of the life cycle incated in the name of the data set. Basically, an evaluation of EPD data is only possible if all the data sets to be compared were created according to EN 15804 and the building context, respectively the product-specific characteristics of performance, are taken into account.2022-03-01T00:00:00.000ILCD format 1.1Sphera Solutions GmbHNo official approval by producer or operator2022-03-01T00:00:00.00000.00.001Data set finalised; entirely publishedGaBi databasesSphera Solutions GmbHtrueOtherThe EPD owner has agreed to add LCI information corresponding to the EPD to the GaBi databases. The data set can be used free of charge by anybody to perform LCA studies with GaBi software and databases. Any use of the LCI data outside of the GaBi software and databases should not be considered before having received any written permission from Sphera. GaBi (source code, database including extension databases modules and single data sets, documentation) remains property of Sphera Solutions GmbH. Sphera Solutions GmbH delivers GaBi licenses comprising data storage medium and manual as ordered by the customer. The license guarantees the right of use for one installation of GaBi. Further installations using the same license are not permitted. Additional licenses are only valid if the licensee holds at least one main license. Licenses are not transferable and must only be used within the licensee's organisation. Data sets may be copied for internal use. The number of copies is restricted to the number of licenses of the software system GaBi the licensee owns. The right of use is exclusively valid for the licensee. All rights reserved.SBS-modified bitumen (asphalt) installed roofing membrane (hot asphalt)Output10.561033246393910.56103324639390.000Mixed primary / secondaryUnknown derivationvaluable