Abstract
The major global economies are facing increasing pressure to reduce their carbon emissions. Introducing environmental policy instruments to stimulate green innovation is key to mitigating global warming. We propose a carbon tax design with a typical green innovation orientation that links carbon taxes with the low-carbon technology (LCT) of enterprises and imposes a progressive tax on heterogeneous enterprises with LCT stock to encourage green innovation. This study used a dynamic evolution game model based on the Stackelberg model of heterogeneous enterprises with LCT stock to analyze the green-innovation-inducing effect of unit progressive carbon taxes. A unit progressive carbon tax could encourage enterprises to participate in green innovation, regardless of their initial green innovation willingness. The progressive tax rate was more effective than a fixed rate for stimulating green innovation by all enterprises. There was a marginal diminishing effect of increases in the tax rate. An increase in the innovation cost coefficient of enterprises reduced the green-innovation-inducing effect of the unit progressive carbon tax. Increasing the tax rate was effective only under normal circumstances. A decline in the carbon reduction in enterprises also reduced the green-innovation-inducing effect of the unit progressive carbon tax. Furthermore, increasing the tax rate when the carbon reduction amount was extremely low caused enterprises to abandon green innovation.
Highlights
Global warming resulting from greenhouse gas emissions is a major global challenge that must be jointly addressed by human society in the 21st century
Unlike the existing carbon tax, which imposes a fixed total amount of carbon tax, the unit progressive carbon tax determines the tax rate according to the units of carbon that are emitted by enterprises
The results of the dynamic game model and numerical simulation demonstrated that a unit progressive carbon tax could stimulate the green innovation of enterprises with heterogeneous low-carbon technology (LCT) stocks, even if the innovation probability of enterprises was initially extremely low
Summary
Global warming resulting from greenhouse gas emissions is a major global challenge that must be jointly addressed by human society in the 21st century. Based on the existing carbon tax, this study proposed a policy design with an explicit green innovation orientation to maximize the green-innovation-inducing effect of carbon taxes by directly linking the carbon emission costs of enterprises with their LCT level. To analyze this policy’s effect on green innovation, we introduced a dynamic evolutionary game model to describe the policy effect of a unit progressive carbon tax on changing the enterprises’ green innovation strategies.
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