Abstract
With the mass market penetration of electric vehicles, the Greenhouse Gas (GHG) emissions associated with lithium-ion battery production has become a major concern. In this study, by establishing a life cycle assessment framework, GHG emissions from the production of lithium-ion batteries in China are estimated. The results show that for the three types of most commonly used lithium-ion batteries, the (LFP) battery, the (NMC) battery and the (LMO) battery, the GHG emissions from the production of a 28 kWh battery are 3061 kgCO2-eq, 2912 kgCO2-eq and 2705 kgCO2-eq, respectively. This implies around a 30% increase in GHG emissions from vehicle production compared with conventional vehicles. The productions of cathode materials and wrought aluminum are the dominating contributors of GHG emissions, together accounting for around three quarters of total emissions. From the perspective of process energy use, around 40% of total emissions are associated with electricity use, for which the GHG emissions in China are over two times higher than the level in the United States. According to our analysis, it is recommended that great efforts are needed to reduce the GHG emissions from battery production in China, with improving the production of cathodes as the essential measure.
Highlights
In recent years, the great promotion of electric vehicles (EVs) by the Chinese government has boosted the development of the EV battery industry
This study focuses on the manufacturing process of vehicle-use lithium ion batteries in China
Based on the life cycle assessment (LCA) method, it establishes a local model for study of the green gas (GHG) emissions of vehicle-use lithium ion batteries, reveals the carbon emission strength of all components in the “Cradle-to-Gate” phase, analyzes the Greenhouse Gas (GHG) emission reduction potential of all components, and makes a transverse comparison and Sino-US comparison of the GHG emissions of LFP, NMC, and LMO batteries
Summary
The great promotion of electric vehicles (EVs) by the Chinese government has boosted the development of the EV battery industry. Based on the life cycle assessment (LCA) method, it establishes a local model for study of the green gas (GHG) emissions of vehicle-use lithium ion batteries, reveals the carbon emission strength of all components in the “Cradle-to-Gate” phase, analyzes the GHG emission reduction potential of all components, and makes a transverse comparison and Sino-US comparison of the GHG emissions of LFP, NMC, and LMO batteries. It analyzes the uncertainty of the GHG emission model based on study results in the existing literature
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