Forecast of Energy Consumption and Carbon Emission of Urban Traffic by Using System Dynamics

Yi Zhang; Li Juan Wan; Li Zhang; Dong Xiang Cheng

doi:10.4028/www.scientific.net/AMR.989-994.1248

Paper Titles

Eco-Environmental Construction in Zhengzhou
p.1232

The Influence of Lanzhou Reach of Yellow River to Temperature-Humidity Effect on Surrounding Lawn and Brick Underlying Surface
p.1236

Study of Morphological Changes Induced by Man-Made Coastal Project
p.1240

Simulation of Salinity Changes Induced by Man-Made Sea Embankment
p.1244

Forecast of Energy Consumption and Carbon Emission of Urban Traffic by Using System Dynamics
p.1248

Study on Feasibility of Concentrated Activated Sludge Reflow of Biochemical Pool of Small-Sized Wastewater Plant
p.1252

Analysis on Fluctuation Characteristics of Wind Power
p.1256

Partial Discharge Characteristics Research Based on RVM
p.1260

Regional Water Resource Utilization Evaluation and Influential Factors Analyses
p.1264

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Forecast of Energy Consumption and Carbon Emission of Urban Traffic by Using System Dynamics

Abstract:

In the future development of city, traffic acts a very important role, which not only support the modernization of city, but also offer more travel and transportation service for the increasing city population. Therefore, it is necessary to study the urban traffic, energy consumption and carbon emission based on System Dynamics. System Dynamics not only offer quantificational references and advice about city planning for the government, but also make people understand the present status of urban traffic and possible development trend of urban traffic under the influence of different policies. In this review, the energy consumption and emission of urban traffic, the development of System Dynamics and the advantages on solving urban traffic problems based on System Dynamics are introduced.