New-type energy storage high-quality development in China under the dual-carbon transition: a provincial evaluation

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

🔬研究者:The composite indicator methodology (entropy + expert weighting) offers a replicable framework for region-level energy storage assessment, useful for comparative studies.

🏢実務担当者:Energy storage developers and utilities can benchmark provincial performance dimensions (innovation, policy conditions) to identify investment opportunities and operational gaps.

🏛政策担当者:Policy makers can use the spatial differentiation findings to design targeted support for underperforming regions and improve coordination across administrative boundaries.

Against the background of China’s dual-carbon transition and the strategic rise of new-type energy storage, this study develops a composite indicator framework to evaluate the development of new-type energy storage across Chinese provinces. Based on provincial-level data covering industrial capacity, policy and planning conditions, technological innovation, environmental responsibility, and international influence, the framework integrates entropy-based objective weighting with expert-informed subjective weighting to support transparent and comparable assessment. The results reveal differentiated regional development patterns, characterized by strong performance in eastern provinces. Guangdong, Fujian, Jiangsu, Zhejiang, and Beijing form a leading cluster, while many provinces outside the eastern region remain primarily deployment-oriented and show relatively greater room for improvement in innovation capacity, market conditions, and external engagement. Among the assessed dimensions, technological innovation and external orientation display the most evident spatial differentiation. A sensitivity analysis further confirms that the main ranking pattern remains stable under alternative weighting assumptions. These findings suggest that China’s rapid expansion of new-type energy storage capacity is increasingly moving from scale-oriented growth toward quality-oriented upgrading, while differentiated provincial conditions continue to shape regional development pathways. From a planning and policy perspective, the results highlight the importance of improving coordination across regions, strengthening market-related institutional conditions, and addressing environmental management challenges associated with large-scale deployment. The proposed framework offers a practical tool for comparative analysis of energy storage development at the regional level.

• openalex https://doi.org/10.1080/15567249.2026.2680068first seen 2026-06-20 05:43:17