Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions

Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions

Heavy-duty trucks contribute a significant component of all transportation in cargo terminals, such as Shaanxi Province, China. The emissions from these vehicles are the primary source of carbon emissions during highway operations. While several studies have attempted to address emission issues by i...

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Main Authors: Xiaodong Zhang, Jinliang Xu, Menghui Li, Qunshan Li, Lan Yang
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:International Journal of Environmental Research and Public Health
Subjects:
circular curve
CO<sub>2</sub> emission
heavy-duty diesel truck
MOVES model
Online Access:https://www.mdpi.com/1660-4601/16/14/2514
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spelling doaj-abd77a84b6de4d60b33bc25ec66553582020-11-24T20:53:17ZengMDPI AGInternational Journal of Environmental Research and Public Health1660-46012019-07-011614251410.3390/ijerph16142514ijerph16142514Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> EmissionsXiaodong Zhang0Jinliang Xu1Menghui Li2Qunshan Li3Lan Yang4School of Highway, Chang’an University, Xi’an 710064, ChinaSchool of Highway, Chang’an University, Xi’an 710064, ChinaSchool of Highway, Chang’an University, Xi’an 710064, ChinaQinghai Province Traffic Construction Project Cost Management Station, Xining 810003, ChinaSchool of Highway, Chang’an University, Xi’an 710064, ChinaHeavy-duty trucks contribute a significant component of all transportation in cargo terminals, such as Shaanxi Province, China. The emissions from these vehicles are the primary source of carbon emissions during highway operations. While several studies have attempted to address emission issues by improving traffic operations, a few focused on the relationship between emissions and highway geometric design, especially for heavy-duty trucks. The primary goal of this research was to understand the impact of circular curve on carbon dioxide (CO<sub>2</sub>) emissions produced by heavy-duty diesel trucks. Firstly, appropriate parameters were specified in MOVES (motor vehicle emission simulator) model according to the geometrical characteristics. Fuel consumption, speed and location data were collected by hiring five skilled drivers on the automotive proving ground located at Chang&#8217;an University, Shaanxi Province. The associated carbon emission data were derived from fuel consumption data by applying the IPCC (Intergovernmental Panel on Climate Change) method. After this, the applicability of MOVES model was verified by the field experiment. Moreover, a multiple regression model for CO<sub>2</sub> emissions incorporated with roadway segment radius, circular curve length, and initial vehicle speed was established with data generated by the MOVES model. The proposed CO<sub>2</sub> emission model was also verified by field experiment with relative error of 6.17%. It was found that CO<sub>2</sub> emission had monotone decreasing property with radius increasing, and the minimum radius that influenced diesel CO<sub>2</sub> emission was 550 m. The proposed quantitative CO<sub>2</sub> emission model can provide a reference for low-carbon highway design, leading to environment-friendly transportation construction.https://www.mdpi.com/1660-4601/16/14/2514circular curveCO<sub>2</sub> emissionheavy-duty diesel truckMOVES model
collection DOAJ
language English
format Article
sources DOAJ
author Xiaodong Zhang
Jinliang Xu
Menghui Li
Qunshan Li
Lan Yang
spellingShingle Xiaodong Zhang
Jinliang Xu
Menghui Li
Qunshan Li
Lan Yang
Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions
International Journal of Environmental Research and Public Health
circular curve
CO<sub>2</sub> emission
heavy-duty diesel truck
MOVES model
author_facet Xiaodong Zhang
Jinliang Xu
Menghui Li
Qunshan Li
Lan Yang
author_sort Xiaodong Zhang
title Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions
title_short Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions
title_full Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions
title_fullStr Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions
title_full_unstemmed Modeling Impacts of Highway Circular Curve Elements on Heavy-Duty Diesel Trucks’ CO<sub>2</sub> Emissions
title_sort modeling impacts of highway circular curve elements on heavy-duty diesel trucks’ co<sub>2</sub> emissions
publisher MDPI AG
series International Journal of Environmental Research and Public Health
issn 1660-4601
publishDate 2019-07-01
description Heavy-duty trucks contribute a significant component of all transportation in cargo terminals, such as Shaanxi Province, China. The emissions from these vehicles are the primary source of carbon emissions during highway operations. While several studies have attempted to address emission issues by improving traffic operations, a few focused on the relationship between emissions and highway geometric design, especially for heavy-duty trucks. The primary goal of this research was to understand the impact of circular curve on carbon dioxide (CO<sub>2</sub>) emissions produced by heavy-duty diesel trucks. Firstly, appropriate parameters were specified in MOVES (motor vehicle emission simulator) model according to the geometrical characteristics. Fuel consumption, speed and location data were collected by hiring five skilled drivers on the automotive proving ground located at Chang&#8217;an University, Shaanxi Province. The associated carbon emission data were derived from fuel consumption data by applying the IPCC (Intergovernmental Panel on Climate Change) method. After this, the applicability of MOVES model was verified by the field experiment. Moreover, a multiple regression model for CO<sub>2</sub> emissions incorporated with roadway segment radius, circular curve length, and initial vehicle speed was established with data generated by the MOVES model. The proposed CO<sub>2</sub> emission model was also verified by field experiment with relative error of 6.17%. It was found that CO<sub>2</sub> emission had monotone decreasing property with radius increasing, and the minimum radius that influenced diesel CO<sub>2</sub> emission was 550 m. The proposed quantitative CO<sub>2</sub> emission model can provide a reference for low-carbon highway design, leading to environment-friendly transportation construction.
topic circular curve
CO<sub>2</sub> emission
heavy-duty diesel truck
MOVES model
url https://www.mdpi.com/1660-4601/16/14/2514
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AT jinliangxu modelingimpactsofhighwaycircularcurveelementsonheavydutydieseltruckscosub2subemissions
AT menghuili modelingimpactsofhighwaycircularcurveelementsonheavydutydieseltruckscosub2subemissions
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AT lanyang modelingimpactsofhighwaycircularcurveelementsonheavydutydieseltruckscosub2subemissions
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