Your search keyword '"Sun, Yuanyuan"' showing total 2 results

1. Optimizing carbon tax rates and revenue recycling schemes: Model development, and a case study for the Bohai Bay area, China.

Author

Sun, Yuanyuan, Mao, Xianqiang, Yin, Xinan, Liu, Gengyuan, Zhang, Jun, and Zhao, Yanwei

Subjects

*CARBON taxes, *INTERNAL revenue, *TAX rates, *COMPUTABLE general equilibrium models, *ENVIRONMENTAL impact charges, *CARBON pricing, *CARBON emissions

Abstract

Carbon taxation has long been proposed to mitigate carbon emissions. Carbon tax rate determination and tax revenue recycling are two key steps to achieve a double dividend under carbon taxation. However, few research has sought to optimize the allocation proportion of tax revenue to various categories of taxpayers (households, enterprises, sectors, etc.), or to optimize the two steps synchronously based on nonlinear optimization methods. In this study, a computable general equilibrium model was established to explore the influence of carbon tax rate and tax revenue recycling shares on the economy and on carbon emissions. Meanwhile, a nonlinear optimization model was proposed, for optimizing both steps of carbon taxation synchronously, as well as for promoting GDP and CO 2 emission reduction. The Bohai Bay area, a typical area with enormous carbon emissions in China, was adopted as the study case for this research. The results showed that the optimized taxation scheme could lead to lower carbon emissions and greater economic growth, i.e., a strong double dividend was obtained. The optimized taxation scheme could lead to both cleaner air and cleaner energy and industrial structures while still promoting economic growth. • CGE model is used for effect analysis under different taxation schemes. • Carbon tax rate and revenue recycling are optimized synchronously. • Lower CO 2 emissions can be achieved without economic decline. [ABSTRACT FROM AUTHOR]

Published

2021

2. Indirect effects of carbon taxes on water conservation: A water footprint analysis for China.

Author

Sun, Yuanyuan, Zhi, Yuan, and Zhao, Yanwei

Subjects

*CARBON taxes, *WATER conservation, *COMPUTABLE general equilibrium models, *WATER analysis, *COMPARATIVE economics, *WATER shortages

Abstract

Water scarcity is a severe problem for regional environmental protection and socioeconomic development, and water footprints are effective tools for evaluating the magnitude of the water scarcity. However, water is closely intertwined with energy. Carbon taxes are an essential policy tool for managing energy use, and could therefore indirectly change the water footprint. Previous research on water footprints has revealed the historical characteristics of water footprints, but has not predicted how these characteristics would change under a carbon tax. Identifying the indirect impacts of carbon taxes on water footprints could therefore offer important information to support more effective energy and water policies. In the present study, we explored the impacts of carbon taxes on water footprints. We established a computable general equilibrium model to predict the effects of carbon taxes on the socioeconomic system, and adopted an input-output model to account for changes in the water footprint. We then used China as a case study. We found that a carbon tax could reduce the total water footprint, even though the water footprint for primary industries increased. In addition, the tax could decrease the virtual water content, and the reduction of virtual water content is the greatest for the secondary industries. • The impacts of carbon taxes on water footprints are predicted. • CGE model is used for the economic system analysis under energy tax. • A carbon tax could reduce the total water footprint. [ABSTRACT FROM AUTHOR]

Published

2021