Low-carbon technology diffusion and economic growth of China: an evolutionary general equilibrium framework

•We proposed an evolutionary general equilibrium framework on new technology diffusion and economic growth.•The framework can capture the nonlinear, path-dependent, and S-shaped technological diffusion process.•Impact of carbon pricing and life expectancy of coal-fired power is analyzed.•A well-desi...

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Published in:Structural change and economic dynamics Vol. 65; pp. 253 - 263
Main Authors: An, Kangxin, Wang, Can, Cai, Wenjia
Format: Journal Article
Language:English
Published: Elsevier B.V 01.06.2023
Subjects:
Economic growth
Evolutionary dynamics
General equilibrium
Technology diffusion
Technology diffusion
Economic growth
Evolutionary dynamics
General equilibrium
ISSN:0954-349X, 1873-6017
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Abstract •We proposed an evolutionary general equilibrium framework on new technology diffusion and economic growth.•The framework can capture the nonlinear, path-dependent, and S-shaped technological diffusion process.•Impact of carbon pricing and life expectancy of coal-fired power is analyzed.•A well-designed policy can bring a win-win future for near-zero emissions of power sector and economic growth of china.•The framework may be insightful for developing the next-generation computable general equilibrium models on structural change of low-carbon technologies. The thorough transition of energy system is required to achieve the Paris Agreement goal. Computable general equilibrium (CGE) models are a common tool for estimating the energy transition pathway and the impact of low-carbon policies on economic growth. However, CGE models encounter challenges on modeling diffusion of new technologies. This study proposed a novel evolutionary dynamic general equilibrium model to capture the nonlinear, path-dependent and S-shaped technology diffusion process, and examined the low-carbon transition pathway of power sector and its impact on economic growth of China. We found that imposing a moderate carbon tax and avoiding the over-reliance on coal-fired power could achieve the near-zero emissions of power sector, avoid the large economic loss and hasten the economic growth in the long term. The evolutionary framework may be useful for developing the next-generation model, particularly for simulating the diffusion of new technologies, and their structural effects on economic dynamics.
AbstractList •We proposed an evolutionary general equilibrium framework on new technology diffusion and economic growth.•The framework can capture the nonlinear, path-dependent, and S-shaped technological diffusion process.•Impact of carbon pricing and life expectancy of coal-fired power is analyzed.•A well-designed policy can bring a win-win future for near-zero emissions of power sector and economic growth of china.•The framework may be insightful for developing the next-generation computable general equilibrium models on structural change of low-carbon technologies. The thorough transition of energy system is required to achieve the Paris Agreement goal. Computable general equilibrium (CGE) models are a common tool for estimating the energy transition pathway and the impact of low-carbon policies on economic growth. However, CGE models encounter challenges on modeling diffusion of new technologies. This study proposed a novel evolutionary dynamic general equilibrium model to capture the nonlinear, path-dependent and S-shaped technology diffusion process, and examined the low-carbon transition pathway of power sector and its impact on economic growth of China. We found that imposing a moderate carbon tax and avoiding the over-reliance on coal-fired power could achieve the near-zero emissions of power sector, avoid the large economic loss and hasten the economic growth in the long term. The evolutionary framework may be useful for developing the next-generation model, particularly for simulating the diffusion of new technologies, and their structural effects on economic dynamics.
Author An, Kangxin
Cai, Wenjia
Wang, Can
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  surname: An
  fullname: An, Kangxin
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  givenname: Can
  orcidid: 0000-0002-1136-792X
  surname: Wang
  fullname: Wang, Can
  email: canwang@tsinghua.edu.cn
  organization: State Key Joint Laboratory of Environment Simulation and Pollution Control (SKLESPC) School of Environment, Tsinghua University, Beijing 100084, China
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  givenname: Wenjia
  surname: Cai
  fullname: Cai, Wenjia
  organization: Ministry of Education Key Laboratory for Earth System Modeling, Department of Earth System Science, Tsinghua University, Beijing 100084, China
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Keywords Technology diffusion
Economic growth
Evolutionary dynamics
General equilibrium
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SubjectTerms Economic growth
Evolutionary dynamics
General equilibrium
Technology diffusion
Title Low-carbon technology diffusion and economic growth of China: an evolutionary general equilibrium framework
URI https://dx.doi.org/10.1016/j.strueco.2023.03.001
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