Vincent Bertrand scite author profile

This paper analyses the effect of recognizing co-firing coal with biomass as renewable electricity. We provide simulations for the French and German electricity mix. Results indicate that, if co-firing is recognized as a renewable, coal may crowd-out traditional renewables with increased generation and additional investments. Regarding CO 2 emissions, we find surges when co-firing is recognized as a renewable. The rise is more significant in Germany due to greater coal capacity. In France, the magnitude depends on the share of nuclear with a lower increase when old nuclear plants are prolonged. Finally, we find that recognizing co-firing as a renewable reduces the overall costs for electricity. We balance the cost saving with the increased social cost from higher CO 2 emissions. Results show that the cost saving is lower than the increased carbon cost for society with carbon valuation around 100 Euros/tCO 2 , except in France when old nuclear plants are not decommissioned.

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Heat or power: How to increase the use of energy wood at the lowest cost?

Caurla

Bertrand

Delacote

et al. 2018

Energy Economics

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Carbon and energy prices under uncertainty: A theoretical analysis of fuel switching with heterogenous power plants

Bertrand¹

2014

Resource and Energy Economics

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