Paper Titles

Life Cycle Assessment of Heavy-Duty Truck for Highway Transport in China
p.117

Effects of Preparation of Cement Raw Meal with Carbide Slag on the Environment and Equipments
p.123

Equilibrium and Kinetics Studies of Phosphate Removal from Solution onto a Hydrothermally Modified Al-Si-Fe-Ca Composite Adsorbent
p.128

Correlation Analysis between Emission and Impact Factors of Greenhouse Gases Caused by Production of Primary Aluminum
p.135

Environment Impact of Freight Transportation in China
p.144

Environmental Coordinated Analysis of Corrugated Box Based on LCA
p.152

Analysis on the Energy-Saving Property of Solar Heat Reflective Coatings on Building in Beijing
p.159

A Recyclable Method for Preparation of Hydrochars and Silica from Rice Husk
p.164

A Life Cycle Inventory Case Study for Marble Mining in China
p.171

HomeMaterials Science ForumMaterials Science Forum Vol. 787Environment Impact of Freight Transportation in...

Environment Impact of Freight Transportation in China

Article Preview

Abstract:

Transportation is an important part of industrial production systems, with serious energy consumption and environmental pollution. In this study, environment impact of road transportation, river freight in the Yangtze River, and railway transportation was established and analyzed by life cycle assessment method. The analysis results show that CO₂ is the largest emission of pollutants for freight transport in China. abiotic depletion potential (ADP) of electric locomotives significantly lower than the other five kinds of shipping methods, only 3.2% of diesel locomotive, 3.9% of the Yangtze barges fleet; 1.2% of the Yangtze Cargo vessel, 0.2% of heavy-duty trucks and 0.1% of light-duty trucks. The results show that accomplishing the same cargo turnover, light-duty truck has the largest environmental impact, while the Electric locomotive freight has the minimum environmental impact. Although the environmental impact of river freight transport is greater than rail transport, but it is far less than road transport.

You might also be interested in these eBooks

Energy, Environment and Functional Materials

Info:

Periodical:

Materials Science Forum (Volume 787)

Pages:

144-151

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.787.144

Citation:

Cite this paper

Online since:

April 2014

Authors:

Yu Feng Zhang, Xian Zheng Gong, Zhi Hong Wang, Yu Liu

Keywords:

Inland Waterway Transportation, Life Cycle Assessment, Railway Transportation, Urban Road Transportation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Xinjun Zhou, Transportation energy situation and future trend analysis. Sino-Global Energy, 2010(07): 9-18.

[2] Spielmann, M. and R. Scholz, Life Cycle Inventories of Transport Services: Background Data for Freight Transport, The International Journal of Life Cycle Assessment, 2005. 10(1): pp.85-94.

DOI: 10.1065/lca2004.10.181.10

[3] Cooper, J., L. Woods and S. Lee, Distance and backhaul in commodity transport modeling, The International Journal of Life Cycle Assessment, 2008. 13(5): pp.389-400.

DOI: 10.1007/s11367-008-0001-4

[4] Mikhail, C., Life-cycle environmental inventory of passenger transportation modes in the United States, 2008, University of California, Berkeley.

[5] Spielmann, M., et al., Scenario Modelling in Prospective LCA of Transport Systems. Application of Formative Scenario Analysis, The International Journal of Life Cycle Assessment, 2005. 10(5): pp.325-335.

DOI: 10.1065/lca2004.10.188

[6] Müller-Wenk, R., A method to include in lca road traffic noise and its health effects, The International Journal of Life Cycle Assessment, 2004. 9(2): pp.76-85.

DOI: 10.1007/bf02978566

[7] Bárzaga-Castellanos, L., R. Neufert and B. Markert, Life cycle assessment for the implementation of emission control measures for the freight traffic with heavy duty vehicles in Germany, The International Journal of Life Cycle Assessment, 2001. 6(5): pp.285-292.

DOI: 10.1007/bf02978790

[8] Cristiano, F. and H. Arpad, Environmental Assessment of Freight Transportation in the U.S., The International Journal of Life Cycle Assessment, 2006. 11(4): pp.229-239.

[9] Yuan, B., Measurement Method for Sustainable Development of Chemical Industry And Its Application, 2006, Beijing University of Technology.

[10] Di, X., Several Fundamental Researches in the Lifecycle Assessment for Mineral Resources and Materials, 2005, Beijing University of Technology.

[11] Information on http://www.moc.gov.cn/.

[12] Jinjun, S., China Auto Market Almanac. 2000: China Business Press.

[13] Cai, H., Xie, S., Determination of Emission Factors from Motor Vehicles under Different Emission Standards in China, Acta Scientiarum Naturalium Universitatis Pekinensis, 2010(03): 319-326.

[14] Li, W., Lixin Fu et.al, Emission Inventory of 10 Kinds of Air Pollutants for Road Traffic Vehicles in China. Urban Environment & Urban ECOLOGY, 2003(02): 36-38.

[15] Agency, E.E., EMEP/CORINAIR Emission Inventory Guidebook - 2007. 2007.

[16] Chen, W., Wang, J., Shuai, S., Effect of Sulfur Content in Diesel Fuel on Engine Performance. Chinese Internal Combustion Engine Engineering, 2008(04): 41-45.

[17] Yang, T., Zhang, W., Discussion about the tow efficiency of the fleet in Three-Gorges reservoir Ship & Ocean Engineering.

[18] Chen, M., Chen,N., He L., Analysis of Development Prospect of Barges Transportation in Yangtze River. Journal of Wuhan University of Technology (Social Sciences Edition), 2009(06): 64-68.

[19] ISO 14040-2006: Environmental management-Life cycle assessment-Principles and framework. 2006.