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Lifecycle carbon intensity with embodied emissions of battery and hydrogen-driven integrative low-carbon systems

Aoye Song, Xiaohan Zhang, Zhaohui Dan, Yuekuan Zhou

2025Communications Engineering9 citationsDOIOpen Access PDF

Abstract

Carbon neutrality targets rely on the flexible, fast-response characteristics of batteries, and the high energy density and clean byproduct of hydrogen. However, the potential role of battery and hydrogen circular economies in the carbon neutrality transition remains uncertain. In this study, a future clean power grid and its impact on the lifecycle carbon footprint of battery and hydrogen circular economies have been predicted. A database of the lifecycle carbon footprint is set up from raw material to recycling. Additionally, a carbon intensity map of lifecycle stages of batteries and hydrogen storage across climate regions in China is provided. The proposed zero-energy paradigm is economically feasible with the obtained levelized net present value ranging from 0.0119 US$ per kWhe (Kunming) to 0.0574 US$ per kWhe (Guangzhou). The findings aim to clarify the role of battery and hydrogen circular economies in the carbon neutrality transition and provide a comprehensive analysis of hydrogen and battery technologies for policy decision-makers. This contribution from Aoye Song and colleagues quantifies the lifecycle carbon footprint of battery and hydrogen circular economies, considering future clean power grid upgrades and complex operational stages. It provides a carbon intensity map across China’s climate regions and offers insights for policy decision making and infrastructure planning.

Topics & Concepts

Carbon fibersGreenhouse gasEnvironmental scienceBattery (electricity)HydrogenEnvironmental economicsComputer scienceEconomicsPhysicsOceanographyGeologyPower (physics)ThermodynamicsAlgorithmQuantum mechanicsComposite numberExtraction and Separation ProcessesAdvanced Battery Technologies ResearchElectric Vehicles and Infrastructure
Lifecycle carbon intensity with embodied emissions of battery and hydrogen-driven integrative low-carbon systems | Litcius