| Key Data Set Information | |
| Location | CL |
| Geographical representativeness description | Recontextualization from 'transport, freight, lorry 16-32 metric ton, EURO5, RER'. Fuel type, freight load factor, regulated and fuel-dependent emissions were updated for the Brazilian situation. The environmental interventions due to vehicle transport are modelled by linking the environmental interventions due to vehicle operation with impacts due to vehicle manufacturing, vehicle maintenance, vehicle disposal, road construction, operation and maintenance of roads and road disposal. |
| Reference year | 2020 |
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| General comment on data set | ecoQuery: https://ecoquery.ecoinvent.org/3.10/cutoff/dataset/24832/documentation This dataset is an adaptation of “transport, freight, lorry 16-32 metric ton, EURO5” in Europe, as available in version 3.6 of the ecoinvent database to reflect the situation in Brazil. It represents the service of 1tkm freight transport in a lorry of the size class 16-32 metric tons gross vehicle weight (GVW) and Euro 5 emissions class.;The Brazilian lorry fleet is regulated under the Vehicles Air Pollution Control Program – Proconve, which phases are equivalent to the European control program – EURO. Since 2012, the Proconve P7 (EURO 5) phase is in practice, while the P8 phase (EURO 6) will start in 2023. Before that, the Proconve P6 phase (EURO 4) was not implemented because of the unavailability of low-sulphur diesel, therefore recontextualized datasets do not consider this phase. The P5 (EURO 3), P4 (EURO 2) and P3 (EURO 1) phases started in 2005, 2000 and 1996, respectively. Prior technologies are classified as unregulated.;;For the dataset recontextualization to the Brazilian reality, an updated average freight load and the diesel with 10 ppm of sulfur and 12% biodiesel blend are considered. Moreover, data from emission tests of the national vehicle production and import (CETESB, 2019) is used to update regulated emissions (carbon monoxide, particulate matter and nitrogen oxides). Furthermore, correction factors are used to consider the impact of biodiesel blend on exhaust emissions (USEPA 2002), and the fuel composition is considered to account for carbon dioxide and sulphur dioxide emission.;The vehicle mass category classification considered in Brazilian national statistics is approximated to the one adopted in ecoinvent datasets. The 16-32 metric ton lorry is representing the Brazilian heavy-duty lorry with gross vehicle weight (GVW) larger than 15 metric tons and combined gross vehicle weight (CGVW) lower than 40-ton category classification. For the Brazilian classification, CGVW refers to the total weight of the combinations of vehicles, i.e. trailers. The average capacity utilization factor (including empty trips) for this category is 60.5 % according to the Road Freight Transport Model from the Brazilian Energy Research Enterprise – EPE (Stukart, 2018). Whereas, the average payload capacity for this category is 12.8 ton (Novo, 2016), resulting in an average freight load of 7.75 ton. GWV is estimated by assuming the same empty vehicle weight as for the RER region for the respective matching categories and accounting for the updated freight load. This resulted in a GWV of 17.7 ton. Vehicle mass dependent non-exhaust emissions (i.e. tyre, brake and road wear) are adjusted accordingly.;The emissions of carbon monoxide (CO), nitrogen oxides (NOx) and Particulate Matter (PM) were updated with data from (CETESB, 2019), which uses data from emission testing of the national vehicle fleet production and imports, weighted by sales amounts. Those tests are run with a reference fuel, which is not blended with biodiesel (ANP, 2018), therefore, those emission factors are adjusted for emissions from burning biodiesel.;The impact of the 12% biodiesel blend in exhaust emissions is accounted for by correction factors derived from USEPA (2002). Correction factors were calculated for the emissions of nitrogen oxides, particulate matter, hydrocarbons, carbon monoxide, acetaldehyde, ethylbenzene, formaldehyde, naphthalene and xylene. Moreover, fuel consumption was corrected with energy content values. For conventional diesel, it was considered energy content of 129.500 Btu/gal, animal-based biodiesel 115.720 Btu/gal and plant-based biodiesel 119.216 Btu/gal (USEPA 2002).;Fuel dependent emissions were updated as well. EURO V lorries are fuelled with 10 ppm sulfur content diesel (blended with 12% biodiesel). Therefore, sulphur dioxide emissions were corrected assuming that all sulphur is emitted as SO2 (0.00002 kg SO2/kg fossil diesel) and to account for the blend of biodiesel, which does not contain sulphur. Carbon dioxide emission is dependent on the fuel carbon content, which was considered as 77.8% for plant-based biodiesel and 76.1 % for animal-based biodiesel, resulting in a Brazilian average of 77.5%, while conventional diesel has 86.7% of carbon (USEPA, 2002). This results in emissions of 3.18 kg of fossil CO2/kg diesel and 2.84 biogenic CO2/kg biodiesel. ;This dataset was developed under the Cornerstone project, an initiative from the Brazilian Business Network on Life cycle Assessment (Rede ACV) in collaboration with ecoinvent to increase the quantity and quality of inventories that represent Brazil, through a thorough adaptation of the datasets. More information about this project is available in redeacv.org.br/en/wg-database/. Technical background is provided in Valebona F.; Rocha T.B.; Motta F. L. Cornerstone Project. Recontextualization of Datasets: Methodology. ACV Brasil, Brazil.;Main data sources for the recontextualization:;ANP, 2018. Agência Nacional do Petróleo, Gás Natural e Biocombustíveis (2018). RANP 764. RESOLUÇÃO ANP Nº 764, DE 20.12.2018 - DOU 21.12.2018.;EPE, 2020. Energy Research Enterprise (2020). Integrated Transport Model. Consultation through Information to Citizen System. Federal Government of Brazil.;Stukart, B., Lima, C., Pacheco, C., Silva, F., Antoniasse, G., Cavalcanti, M., Souza, M., Stelling, P. (2018). Transporte Rodoviário Brasileiro, Transição para Óleo Diesel S10 e Desafios para o Refino Nacional. Rio Oil&Gas. Available at: https://stt.ibp.org.br/eventos/2018/riooil2018/pdfs/Riooil2018_1654_201806222325ibp1654_1 8_transic.pdf. Acessed in: 06/06/2020.;CETESB (2019). Companhia Ambiental do Estado de São Paulo (2019). Emissões Veiculares no Estado de São Paulo. Governo do Estado de São Paulo. Available at: https://cetesb.sp.gov.br/veicular/relatoriose-publicacoes/. Accessed in 15/06/2020.;USEPA, 2002. United States Environmental Protection Agency (2002). A Comprehensive Analysis of Biodiesel Impacts on Exhaust Emissions. Draft Technical Report.;Novo, A. L. (2016). PERSPECTIVAS PARA O CONSUMO DE COMBUSTÍVEL NO TRANSPORTE DE CARGA NO BRASIL: UMA COMPARAÇÃO ENTRE OS EFEITOS ESTRUTURA E INTENSIDADE NO USO FINAL DE ENERGIA DO SETOR. Available at: http://www.ppe.ufrj.br/images/publica%C3%A7%C3%B5es/mestrado/Ana_Luiza_Andrade_Novo.pdf From combustion of fuel in the engine. The dataset takes as input the infrastructure of the lorry and road network, the materials and efforts needed for maintenance of these and the fuel consumed in the vehicle for the journey. The activity ends with the transport service of 1tkm and the emissions of exhaust and non-exhaust emissions into air, water and soil. |
| Copyright | Yes |
| Quantitative reference | |
| Reference flow(s) |
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| Time representativeness | |
| Data set valid until | 2023 |
| Time representativeness description | Validity period of the 12% biodiesel blend regulation. The regulation foresees incremental increases in the biodiesel content in the Brazilian market fuel (it started with a 2% blend in 2008, reached 12% in 2020 and will increase 1% a year, until it reaches 15% in 2023). |
| Technological representativeness | |
| Technology description including background system | Diesel and diesel engine. Lorry transport is further differentiated with respect to vehicle weight and emission technology standard (EURO-standard). ;Technology classifications are based on those used widely within the works of the European Environment Agency, particularly in the Emissions Inventory Guidebook. |
| LCI method and allocation | |
| Type of data set | Unit process, black box |
| LCI Method Principle | Other |
| Data sources, treatment and representativeness | |
| Data treatment and extrapolations principles | Apart from particulate matter, carbon monoxide, sulfur dioxide, and carbon dioxide, exhaust emissions are extrapolated from an original dataset covering the geography RER. Infrastructure and maintenance information are also extrapolated from the geography RER. Fuel use and emission factors were adapted considering the 12% biodiesel blend, however original emission factors references are from earlier periods. The uncertainty has been adjusted accordingly. |
| Data source(s) used for this data set | |
| Sampling procedure | Literatura data is used to update regulated exhaust emissions and freight load factors. Furthermore, correction factors are used to consider the impact of biodiesel blend on exhaust emissions. Refer to General Comment section for detailed recontextualization methodology. |
| Completeness | |
| Completeness of product model | No statement |
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| Data set generator / modeller | |
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| Time stamp (last saved) | 2024-10-18T12:53:31.473000-03:00 |
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| Publication and ownership | |
| UUID | bbf285ea-3ecc-46f3-ba06-a65e38f124a0 |
| Date of last revision | 2024-10-17T20:14:00.340000-03:00 |
| Data set version | 00.00.019 |
| Unchanged re-publication of | |
| Copyright | Yes |
Inputs
| Type of flow | Classification | Flow | Location | Mean amount | Resulting amount | Minimum amount | Maximum amount | ||
|---|---|---|---|---|---|---|---|---|---|
| Product flow | C:Manufacturing / 19:Manufacture of coke and refined petroleum products / 192:Manufacture of refined petroleum products / 1920:Manufacture of refined petroleum products | CL | 0.024883709 kg | 0.024883709 kg | |||||
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| Product flow | E:Water supply; sewerage, waste management and remediation activities / 38:Waste collection, treatment and disposal activities; materials recovery / 383:Materials recovery / 3830:Materials recovery | RoW | 0.003393233 kg | 0.003393233 kg | |||||
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| Product flow | C:Manufacturing / 29:Manufacture of motor vehicles, trailers and semi-trailers / 291:Manufacture of motor vehicles / 2910:Manufacture of motor vehicles | RoW | 2.3907E-7 Item(s) | 2.3907E-7 Item(s) | |||||
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| Product flow | G:Wholesale and retail trade; repair of motor vehicles and motorcycles / 45:Wholesale and retail trade and repair of motor vehicles and motorcycles / 452:Maintenance and repair of motor vehicles / 4520:Maintenance and repair of motor vehicles | GLO | 2.3907E-7 Item(s) | 2.3907E-7 Item(s) | |||||
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| Product flow | F:Construction / 42:Civil engineering / 421:Construction of roads and railways / 4210:Construction of roads and railways | GLO | 0.00109 m*a | 0.00109 m*a | |||||
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| Product flow | F:Construction / 42:Civil engineering / 421:Construction of roads and railways / 4210:Construction of roads and railways | RoW | 1.6674E-4 m*a | 1.6674E-4 m*a | |||||
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Outputs
| Type of flow | Classification | Flow | Location | Mean amount | Resulting amount | Minimum amount | Maximum amount | ||
|---|---|---|---|---|---|---|---|---|---|
| Product flow | H:Transportation and storage / 49:Land transport and transport via pipelines / 492:Other land transport / 4923:Freight transport by road | CL | 1.0 t*km | 1.0 t*km | |||||
| Waste flow | E:Water supply; sewerage, waste management and remediation activities / 38:Waste collection, treatment and disposal activities; materials recovery / 382:Waste treatment and disposal / 3821:Treatment and disposal of non-hazardous waste | GLO | 1.86161264516129E-5 kg | 1.86161264516129E-5 kg | |||||
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| Waste flow | E:Water supply; sewerage, waste management and remediation activities / 38:Waste collection, treatment and disposal activities; materials recovery / 382:Waste treatment and disposal / 3821:Treatment and disposal of non-hazardous waste | GLO | 1.60286451612903E-5 kg | 1.60286451612903E-5 kg | |||||
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| Waste flow | E:Water supply; sewerage, waste management and remediation activities / 38:Waste collection, treatment and disposal activities; materials recovery / 382:Waste treatment and disposal / 3821:Treatment and disposal of non-hazardous waste | GLO | 1.84443909677419E-4 kg | 1.84443909677419E-4 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.25189E-7 kg | 1.25189E-7 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 4.84867E-8 kg | 4.84867E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.79927E-12 kg | 2.79927E-12 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 3.75293E-8 kg | 3.75293E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.91755E-9 kg | 1.91755E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 4.10905E-9 kg | 4.10905E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.43536E-10 kg | 2.43536E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 0.079089076 kg | 0.079089076 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 0.009643284 kg | 0.009643284 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.03312E-5 kg | 1.03312E-5 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.40881E-6 kg | 1.40881E-6 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 8.39777E-10 kg | 8.39777E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.67956E-12 kg | 1.67956E-12 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 5.93444E-10 kg | 5.93444E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 5.05198E-6 kg | 5.05198E-6 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 8.21808E-10 kg | 8.21808E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.30106E-7 kg | 2.30106E-7 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 8.21808E-9 kg | 8.21808E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.45841E-9 kg | 1.45841E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.48361E-10 kg | 1.48361E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 6.73612E-8 kg | 6.73612E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.22518E-6 kg | 2.22518E-6 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.46335E-10 kg | 2.46335E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.18903E-9 kg | 2.18903E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.75162E-6 kg | 1.75162E-6 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.64362E-9 kg | 1.64362E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.73936E-9 kg | 2.73936E-9 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.79927E-12 kg | 2.79927E-12 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.53404E-8 kg | 1.53404E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.73936E-10 kg | 2.73936E-10 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 4.86512E-8 kg | 4.86512E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 2.68458E-8 kg | 2.68458E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.09575E-8 kg | 1.09575E-8 kg | |||||
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| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 3.87335E-7 kg | 3.87335E-7 kg | |||||
| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 1.97229E-4 kg | 1.97229E-4 kg | |||||
| Elementary flow | Emissions / Emissions to air / Emissions to air, unspecified | CL | 4.97674E-7 kg | 4.97674E-7 kg | |||||