Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor

Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor

Texas has the highest rate of the U.S energy related greenhouse gas (GHG) emissions, and transportation is one of the major contributors. The Houston–Dallas corridor is the busiest routes in Texas. Recently, the development of an intercity High-Speed Rail System (HSR) with Shinkansen N700 series tra...

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Main Authors: Chipindula Jesuina, Botlaguduru Venkata, Choe Doeun, Kommalapati Raghava
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/20/matecconf_tran-set2019_05002.pdf
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spelling doaj-bd3731d91bf541aaa6c76b1e96dfe48c2021-02-02T00:25:42ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-012710500210.1051/matecconf/201927105002matecconf_tran-set2019_05002Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 CorridorChipindula Jesuina0Botlaguduru Venkata1Choe Doeun2Kommalapati RaghavaCenter for Energy & Environmental Sustainability, Prairie View A&M UniversityCenter for Energy & Environmental Sustainability, Prairie View A&M UniversityDepartment of Civil and Environmental Engineering, Prairie View A&M UniversityTexas has the highest rate of the U.S energy related greenhouse gas (GHG) emissions, and transportation is one of the major contributors. The Houston–Dallas corridor is the busiest routes in Texas. Recently, the development of an intercity High-Speed Rail System (HSR) with Shinkansen N700 series trains has commenced. This study builds the life cycle inventories for vehicles and infrastructure in the HSR system, and conducts a preliminary environmental life cycle assessment. Results indicate that over the design life of the HSR system the total GHG emissions from the vehicle life-time are 9.695 kgCO2eq/VKT, and fossil-fuel usage during vehicle operation is the primary contributor (97%). For the infrastructure, total life-time GHG emissions are 239 kgCO2eq/VKT, out of which, 94% are from the construction stage. Infrastructure is the dominant contributor to end-point impacts in human health category, with 58% of total impact across all damage categories.https://www.matec-conferences.org/articles/matecconf/pdf/2019/20/matecconf_tran-set2019_05002.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Chipindula Jesuina
Botlaguduru Venkata
Choe Doeun
Kommalapati Raghava
spellingShingle Chipindula Jesuina
Botlaguduru Venkata
Choe Doeun
Kommalapati Raghava
Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor
MATEC Web of Conferences
author_facet Chipindula Jesuina
Botlaguduru Venkata
Choe Doeun
Kommalapati Raghava
author_sort Chipindula Jesuina
title Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor
title_short Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor
title_full Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor
title_fullStr Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor
title_full_unstemmed Lifecycle Environmental Impact of High-Speed Rail System in the Houston-Dallas I-45 Corridor
title_sort lifecycle environmental impact of high-speed rail system in the houston-dallas i-45 corridor
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description Texas has the highest rate of the U.S energy related greenhouse gas (GHG) emissions, and transportation is one of the major contributors. The Houston–Dallas corridor is the busiest routes in Texas. Recently, the development of an intercity High-Speed Rail System (HSR) with Shinkansen N700 series trains has commenced. This study builds the life cycle inventories for vehicles and infrastructure in the HSR system, and conducts a preliminary environmental life cycle assessment. Results indicate that over the design life of the HSR system the total GHG emissions from the vehicle life-time are 9.695 kgCO2eq/VKT, and fossil-fuel usage during vehicle operation is the primary contributor (97%). For the infrastructure, total life-time GHG emissions are 239 kgCO2eq/VKT, out of which, 94% are from the construction stage. Infrastructure is the dominant contributor to end-point impacts in human health category, with 58% of total impact across all damage categories.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/20/matecconf_tran-set2019_05002.pdf
work_keys_str_mv AT chipindulajesuina lifecycleenvironmentalimpactofhighspeedrailsysteminthehoustondallasi45corridor
AT botlaguduruvenkata lifecycleenvironmentalimpactofhighspeedrailsysteminthehoustondallasi45corridor
AT choedoeun lifecycleenvironmentalimpactofhighspeedrailsysteminthehoustondallasi45corridor
AT kommalapatiraghava lifecycleenvironmentalimpactofhighspeedrailsysteminthehoustondallasi45corridor
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