0000000000619567

AUTHOR

Luís C. Neves

showing 2 related works from this author

Rolling resistance contribution to a road pavement life cycle carbon footprint analysis

2016

Purpose Although the impact of road pavement surface condition on rolling resistance has been included in the life cycle assessment (LCA) framework of several studies in the last years, there is still a high level of uncertainty concerning the methodological assumptions and the parameters that can affect the results. In order to adopt pavement carbon footprint/LCA as a decision-making tool, it is necessary to explore the impact of the chosen methods and assumptions on the LCA results. Methods This paper provides a review of the main models describing the impact of the pavement surface properties on vehicle fuel consumption and analyses the influence of the methodological assumptions related…

EngineeringGreenhouse gas (GHG) emissions020209 energyRolling resistance02 engineering and technology010501 environmental sciences01 natural sciencesCivil engineeringDeterioration rateEnvironmental Science(all)Pavement surface propertie0202 electrical engineering electronic engineering information engineeringGreenhouse gas (GHG) emissionSettore ICAR/04 - Strade Ferrovie Ed AeroportiLife-cycle assessment0105 earth and related environmental sciencesGeneral Environmental Science2300business.industryLCAEnvironmental engineeringCarbon footprintSensitivity testRoadways and InfrastructureFuel efficiencyCarbon footprintPavement surface propertiesbusinessRolling resistanceThe International Journal of Life Cycle Assessment
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Using a hazard-independent approach to understand road-network robustness to multiple disruption scenarios

2021

Abstract A range of predictable and unpredictable events can cause road perturbations, disrupting traffic flows and more generally the functioning of society. To manage this threat, stakeholders need to understand the potential impact of a multitude of predictable and unpredictable events. The present paper adopts a hazard-independent approach to assess the robustness (ability to maintain functionality despite disturbances) of the Sioux Falls network to all possible disruptions. This approach allows understanding the impact of a wide range of disruptive events, including random, localised, and targeted link failures. The paper also investigates the predictability of the link combinations wh…

050210 logistics & transportationPotential impactComputer science020209 energy05 social sciencesTransportationLink criticality Network robustness Resilience assessment Road networks Traffic congestion Travel time02 engineering and technologyHazardRisk analysis (engineering)0502 economics and business0202 electrical engineering electronic engineering information engineeringRange (statistics)Settore ICAR/04 - Strade Ferrovie Ed AeroportiNetwork performanceSensitivity (control systems)PredictabilityRobustness (economics)General Environmental ScienceCivil and Structural Engineering
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