Wei Lin scite author profile

Abstract:The rapid growth of transport requirements in China will incur increasing transport energy demands and associated environmental pressures. In this paper, we employ a generalized data envelopment analysis (DEA) to evaluate the relative energy efficiency of rail, road, aviation and water transport from 1971 to 2011 by considering the energy input and passenger-kilometers (PKM) and freight ton-kilometers (TKM) outputs. The results show that the optimal energy efficiencies observed in 2011 are for rail and water transport, with the opposite observed for the energy efficiencies of aviation and road transport. In addition, we extend the DEA model to estimate future transport energy consumption in China. If each transport mode in 2020 is optimized throughout the observed period, the national transport energy consumption in 2020 will reach 497,701 kilotons coal equivalent (ktce), whereas the annual growth rate from 2011 to 2020 will be 5.7%. Assuming that efficiency improvements occur in this period, the estimated national transport energy consumption in 2020 will be 443,126 ktce, whereas the annual growth rate from 2011 to 2020 will be 4.4%, which is still higher than that of the national total energy consumption (3.8%).

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Treatment of an Oil/Grease Wastewater Using Ultrafiltration: Pilot-Scale Results

Reed

Lin

Dunn

et al. 1997

Separation Science and Technology

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Adsorptive characteristics of akaganeite and its environmental applications: a review

Zhao¹,

Lin²,

Chang³

et al. 2012

Environmental Technology Reviews

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Wei Lin

Preparation of iron-impregnated granular activated carbon for arsenic removal from drinking water

Post-failure simulations of a large slope failure using 3DEC: The Hsien-du-shan slope

Estimating Energy Consumption of Transport Modes in China Using DEA

Treatment of an Oil/Grease Wastewater Using Ultrafiltration: Pilot-Scale Results

Adsorptive characteristics of akaganeite and its environmental applications: a review

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