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Assessment of decarbonization alternatives for passenger transportation in Rio de Janeiro, Brazil

•We evaluate decarbonization of passenger transportation in Rio de Janeiro, Brazil.•Public transport and carpooled shared mobility rise system capacity and reduces CO2.•Biofuels reduce CO2 emissions at no increased system cost.•CO2 price is the most effective decarbonization policy, but it is costli...

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Published in:	Transportation research. Part D, Transport and environment Transport and environment, 2022-02, Vol.103, p.103161, Article 103161
Main Authors:	Silva, Tatiana Bruce da, Baptista, Patrícia, Santos Silva, Carlos A., Santos, Luan
Format:	Article
Language:	English
Subjects:	Autonomous vehicles Biofuels Carbon pricing Electric vehicles Public transit Ride-hailing
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container_title	Transportation research. Part D, Transport and environment
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creator	Silva, Tatiana Bruce da Baptista, Patrícia Santos Silva, Carlos A. Santos, Luan
description	•We evaluate decarbonization of passenger transportation in Rio de Janeiro, Brazil.•Public transport and carpooled shared mobility rise system capacity and reduces CO2.•Biofuels reduce CO2 emissions at no increased system cost.•CO2 price is the most effective decarbonization policy, but it is costlier.•Increased renewable electricity and electrification of the fleet reduce the most CO2. This paper applies an energy systems model to evaluate how shared mobility (ride-hailing and shared autonomous vehicles), public buses, alternative energy sources (electricity and biofuels) and carbon pricing contribute to reduce passenger vehicles CO2 emissions in Rio de Janeiro state, Brazil, from 2016 to 2050. Public buses and carpooled shared mobility increase system capacity, resulting in lower vehicle ownership, energy demand and CO2 emissions, as well as savings per ton of CO2 abated (from $3 to $4186). Biofuels reduce CO2 emissions at no increased system cost, while carbon pricing is the most effective policy to reduce CO2 emissions, but it is costlier than the alternatives and results in greater private vehicle use (up to 260%) if the expansion of zero-carbon public transportation remains limited due to technology adoption. The policy that reduces the most emissions (by 84%) combines the expansion of renewable electricity generation and implementation of a CO2 price.
doi_str_mv	10.1016/j.trd.2021.103161
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source	ScienceDirect Journals
subjects	Autonomous vehicles Biofuels Carbon pricing Electric vehicles Public transit Ride-hailing
title	Assessment of decarbonization alternatives for passenger transportation in Rio de Janeiro, Brazil
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