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Pavement, Roadway, and Bridge Life Cycle Assessment 2020
DOI link for Pavement, Roadway, and Bridge Life Cycle Assessment 2020
Pavement, Roadway, and Bridge Life Cycle Assessment 2020 book
Proceedings of the International Symposium on Pavement. Roadway, and Bridge Life Cycle Assessment 2020 (LCA 2020, Sacramento, CA, 3-6 June 2020)
Pavement, Roadway, and Bridge Life Cycle Assessment 2020
DOI link for Pavement, Roadway, and Bridge Life Cycle Assessment 2020
Pavement, Roadway, and Bridge Life Cycle Assessment 2020 book
Proceedings of the International Symposium on Pavement. Roadway, and Bridge Life Cycle Assessment 2020 (LCA 2020, Sacramento, CA, 3-6 June 2020)
Edited ByJohn Harvey, Imad L. Al-Qadi, Hasan Ozer, Gerardo Flintsch
Edition 1st Edition
First Published 2020
eBook Published 30 May 2020
Pub. Location London
Imprint CRC Press
Pages 556
eBook ISBN 9781003092278
Subjects Engineering & Technology
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Harvey, J., Al-Qadi, I.L., Ozer, H., & Flintsch, G. (Eds.). (2020). Pavement, Roadway, and Bridge Life Cycle Assessment 2020: Proceedings of the International Symposium on Pavement. Roadway, and Bridge Life Cycle Assessment 2020 (LCA 2020, Sacramento, CA, 3-6 June 2020) (1st ed.). CRC Press. https://doi.org/10.1201/9781003092278
ABSTRACT
An increasing number of agencies, academic institutes, and governmental and industrial bodies are embracing the principles of sustainability in managing their activities. Life Cycle Assessment (LCA) is an approach developed to provide decision support regarding the environmental impact of industrial processes and products. LCA is a field with ongoing research, development and improvement and is being implemented world-wide, particularly in the areas of pavement, roadways and bridges. Pavement, Roadway, and Bridge Life Cycle Assessment 2020 contains the contributions to the International Symposium on Pavement, Roadway, and Bridge Life Cycle Assessment 2020 (Davis, CA, USA, June 3-6, 2020) covering research and practical issues related to pavement, roadway and bridge LCA, including data and tools, asset management, environmental product declarations, procurement, planning, vehicle interaction, and impact of materials, structure, and construction.
Pavement, Roadway, and Bridge Life Cycle Assessment 2020 will be of interest to researchers, professionals, and policymakers in academia, industry, and government who are interested in the sustainability of pavements, roadways and bridges.
TABLE OF CONTENTS
chapter |11 pages
Mapping of unit product system/processes for pavement life-cycle assessment
ByChaitanya G. Bhat, Amlan Mukherjee, Joep Meijer
chapter |12 pages
Asphalt pavement resurfacing: A review toward a better selection and representativeness of LCI
ByA. de Bortoli
chapter |10 pages
Towards more sustainable airfield pavements using life-cycle assessment of design alternatives
ByK. Mantalovas, R. Roberts, G. Giancontieri, L. Inzerillo, G. Di Mino
chapter |6 pages
Recommendations for airfield life cycle assessment tool development
ByA.A. Butt, J.T. Harvey, J. Lea, A. Saboori, N. Garg
chapter |11 pages
Incorporating the impacts of climate change into a life cycle assessment of a slab-on-girder highway bridge
ByG. Guest, J. Zhang, B. Kadhom, J. Singh
chapter |10 pages
Life cycle environmental impact considerations for structural concrete in transportation infrastructure
ByS.A. Miller
chapter |11 pages
Life cycle assessment of ultra-high performance concrete bridge deck overlays
ByM. Rangelov, R.P. Spragg, Z.B. Haber, H. Dylla
chapter |10 pages
How do funds allocation and maintenance intervention affect the deterioration process of urban bridges in Shanghai
ByYu Fang, Lijun Sun*
chapter |8 pages
Assessment of asphalt concrete EPDs in Scandinavia and the United States
ByL. Strömberg, S. Hintze, I.L. Al-Qadi Al-Qadi, E. Okte
chapter |10 pages
Life cycle assessment in public procurement of transport infrastructure
ByS. Toller, S. Miliutenko, M. Erlandsson, S. Nilsson, M. Larsson
chapter |11 pages
Technical and organizational challenges to developing product category rules for asphalt pavement construction
ByChaitanya G. Bhat, Joseph Shacat, Amlan Mukherjee
chapter |11 pages
Using environmental product declarations to support pavement green public procurement
ByM. Rangelov, H. Dylla, N. Sivaneswaran
chapter |7 pages
A feasibility study to assess the use of EPDs in public procurement
ByL.K. Miller, B.T. Ciavola
chapter |13 pages
Integrated evaluation method of life cycle economic and environmental impact for permeable pavement: Model development and case study
ByJiawen Liu, Hui Li*, Yu Wang
chapter |11 pages
Pavement life cycle management: Towards a sustainability assessment framework in Europe
ByA. Jiménez del Barco Carrión, Tony Parry, Elisabeth Keijzer, Björn Kalman, Konstantinos Mantalovas, Ali A. Butt, John T. Harvey, Davide Lo Presti
chapter |10 pages
Impacts of climate-change and realistic traffic conditions on asphalt pavement and rehabilitation decisions using life cycle assessment
ByK. Haslett, E. Dave, W. Mo
chapter |10 pages
Pavement life cycle assessment of state highway network with Caltrans PaveM system
ByI.A. Basheer
chapter |8 pages
Exploring the cost benefit value and relative emissions of pavement preservation treatments using RoadResource.org
ByS. Casillas, A. Braham
chapter |9 pages
A case study of using life cycle cost analysis in pavement management system
ByD. Cheng, K. Joslin
chapter |10 pages
Pavement preservation and maintenance schedule evaluation using a life-cycle assessment tool
ByQingwen Zhou, Hasan Ozer, Imad L. Al-Qadi
chapter |9 pages
Climate action plans: Review and recommendations
ByM.T. Lozano, A.M. Kendall, A.A. Butt, J.T. Harvey
chapter |7 pages
LCA consortium for a road environmental-friendly infrastructure in Mexico City
ByN. Hernandez-Fernández, L.P. Güereca-Hernandez, A. Ossa-Lopez, M. Flores-Guzmán, C.E. Caballero-Güereca
chapter |11 pages
Lessons learned from the supply curve approach
ByA.A. Butt, J.T. Harvey, A. Saboori, C. Kim, M.T. Lozano, A.M. Kendall
chapter |7 pages
Comparison of life cycle greenhouse gas emissions and energy consumption between complete streets vs. conventional streets
ByArash Saboori*, John T. Harvey, Maryam Ostovar, Ali Azhar Butt, Alissa M. Kendall
chapter |11 pages
Network-level life cycle assessment of reclaimed asphalt pavement in Washington State
ByM. Zokaei Ashtiani, S.T. Muench
chapter |10 pages
Including sustainability and life cycle perspectives in decision making
ByR.I. Karlsson, Å. Lindgren
chapter |9 pages
Combined life cycle assessment and life cycle cost analysis for the Illinois Tollway
ByEgemen Okte, Imad L. Al-Qadi, Hasan Ozer
chapter |10 pages
eLCAP: A web application for environmental life cycle assessment of pavements focused on California
ByJohn T. Harvey*, Jon Lea, Arash Saboori, Maryam Ostovar, Ali Azhar Butt
chapter |10 pages
Fuel and non-fuel vehicle operating costs comparison of select vehicle types and fuel sources: A parametric study
ByRami Chkaiban, Elie Y. Hajj, Gary Bailey, Muluneh Sime, Hao Xu, Peter E. Sebaaly
chapter |10 pages
Bayesian economic analyses of including reclaimed asphalt pavements in flexible pavement rehabilitation
ByHongren Gong, Miaomiao Zhang, Wei Hu, Baoshan Huang*
chapter |9 pages
Global warming potential and fossil depletion of enhanced rubber modified asphalt
ByA. Farina, A. Anctil, M.E. Kutay
chapter |11 pages
Interpreting life cycle assessment results of bio-recycled asphalt pavements for more informed decision-making
ByK. Mantalovas, A. Jiménez del Barco Carrión, J. Blanc, E. Chailleux, P. Hornych, J.P. Planche, L. Porot, S. Pouget, C. Williams, D. Lo Presti
chapter |9 pages
Use of recycled aggregates in concrete pavement: Pavement design and life cycle assessment
ByXijun Shi, Zachary Grasley, Anol Mukhopadhyay, Dan Zollinger
chapter |10 pages
Carbon footprint of asphalt road pavements using warm mix asphalt with recycled concrete aggregates: A Colombian case study
ByD. Vega Araujo, J. Santos, G. Martinez-Arguelles
chapter |11 pages
Sustainable flexible pavement overlay policy for reduced life-cycle cost and environmental impact
ByChunfu Xin, Qing Lu
chapter |11 pages
LCA and cost comparative analysis of half-warm mix asphalts with varying degrees of RAP
ByT. Mattinzioli, F. Moreno, M. Rubio, G. Martínez
chapter |12 pages
Life cycle assessment of a thin bonded concrete overlay of asphalt project in Woodland, California
ByM. Ostovar, A.A. Butt, A. Mateos, J.T. Harvey
chapter |9 pages
Sensitivity analysis of the benefits of replacing virgin materials with RAP considering rejuvenator type and hauling distance
ByMohamed Elkashef, Arash Saboori*, Maryam Ostovar, John T. Harvey, Ali Azhar Butt, David Jones
chapter |10 pages
A framework for selection between end-of-life alternatives at the project-level considering full life cycle environmental impacts
ByArash Saboori*, John T. Harvey, Jeremy Lea, David Jones
chapter |8 pages
Quantification of potential reductions in greenhouse gas emissions by allowing increased use of reclaimed asphalt pavement in Caltrans projects
ByArash Saboori, John T. Harvey, Ali Azhar Butt, Mohamed Elkashef
chapter |8 pages
Pavement recycling: A case study of life-cycle assessment and life-cycle cost analysis
ByQingwen Zhou, Imad L. Al-Qadi Al-Qadi, Hasan Ozer, Brian K. Diefenderfer
chapter |10 pages
ACCIONA’s expertise in the use of LCA in construction sector
ByAndrea Casas Ocampo, Edith Guedella Bustamante
chapter |9 pages
LCA of construction and demolition waste recycling: Case study of production phase
ByT. Desbois, O. Yazoghli-Marzouk, A. Feraille
chapter |11 pages
Life cycle assessment of pervious concrete pavements reinforced by recycled carbon fiber composite elements
ByM. Rangelov, S. Nassiri, K. Englund
chapter |8 pages
Effect of durability on fiber-reinforced asphalt mixtures sustainability
ByE. Lizasoain-Arteaga, D. Castro-Fresno, G.W. Flintsch
chapter |10 pages
Life Cycle Assessment (LCA) study on asphalt binders manufactured in North America
ByM. Buncher, R. Corun, Maggie Wildnauer, Erin Mulholland
chapter |9 pages
Preliminary evaluation of using intelligent compaction for life cycle assessment and life cycle cost analysis of pavement structures
ByS. Satani, S.F. Aval, J. Garrido, M. Mazari
chapter |13 pages
Impact of allocation method on carbon footprint of pervious concrete with industry byproducts
ByX.D. Chen, H. Wang
chapter |11 pages
Development of pavement performance prediction models for in-situ recycled pavements in Virginia
ByE.A. Amarh, J. Santos, G.W. Flintsch, B.K. Diefenderfer
chapter |9 pages
Mechanistic modeling of the effect of pavement surface mega-texture on vehicle rolling resistance
ByS. Rajaei, K. Chatti
chapter |11 pages
Effect of pavement structural response on vehicle fuel consumption: Lessons learned from data collection, processing and analysis
ByA.A. Butt, J.T. Harvey, D.T. Fitch, D. Reger, D. Balzarini, I. Zaabar, K. Chatti, M. Estaji, E. Coleri, A. Louhghalam
chapter |11 pages
PVI related decision-making tools in use phase of LCA: A literature review
ByK. Mohanraj, D. Merritt, N. Sivaneswaran, H. Dylla
chapter |9 pages
Context-specific assessment of the life cycle environmental performance of pavements considering neighborhood heterogeneity
ByHessam AzariJafari, Xin Xu, Jeremy Gregory, Randolph Kirchain
