Renewable Technology Adoption and the Macroeconomy
Borghan Nezami Narajabad and
No 6372, CESifo Working Paper Series from CESifo Group Munich
We study the effect of technological progress on the optimal transition to a renewable energy-fueled world economy. We develop a dynamic general equilibrium model where energy is used as an input in production and can come from fossil or renewable sources. Both require the use of capital, which is also needed in the production of final goods. Renewable energy firms can invest in improving the productivity of their capital stock. The actual improvement is subject to spillovers and involves an opportunity cost. This results in underinvestment in the productivity of renewable energy capital. In the presence of environmental externalities, the optimal allocation can be implemented through a Pigouvian tax on fossil fuel, together with policy that promotes new renewable technologies. We calibrate our model using world-economy data and characterize the transition toward a low carbon economy. We find that it is optimal for renewables to â€œstart smallâ€ and pick up their market penetration only later. In the short run, investment is needed mainly to improve productivity in the renewable energy sector. Later, renewable energy contributes by becoming a â€œmodestâ€ engine of economic growth. It takes approximately 150 years before fossil fuel is phased out entirely, resulting in a 2.8 degree Celsius temperature increase.
JEL-codes: D81 H21 Q54 (search for similar items in EconPapers)
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Working Paper: Renewable Technology Adoption and the Macroeconomy (2016)
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Persistent link: https://EconPapers.repec.org/RePEc:ces:ceswps:_6372
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