Frontiers Research of Architecture and Engineering

As a national-level new area, Xiong'an New Area's positioning of "intelligent, green, and innovative" provides a unique scenario for low-carbon campus construction. Taking the Xiong'an campus of relocating universities as an example, this paper integrates blockchain technology with the planning characteristics of Xiong'an New Area and proposes three innovative approaches: blockchain-enabled energy management transparency and optimization, smart contract-based green building lifecycle management, and decentralized resource sharing platform construction. The results demonstrate that blockchain technology significantly improves campus carbon reduction efficiency through data credibility, process automation, and resource collaboration, offering a reference technical path for future green campus development.

Xiong'an New Area Management Committee. Hebei Xiong'an New Area Planning Outline (2023 Revised Edition) [Z]. 2023.

Lu, H. Modeling and application of university energy consumption [J]. Environmental Science and Management, 2015, 40(10): 35-39.

Guo, S., Wang, R., & Zhang, F. A review of blockchain technology principles and applications [J]. Computer Science, 2021, 48(2): 271-281.

Zhang, L., Peng, B., & Cheng, C. Government subsidy strategies for low-carbon supply chains based on blockchain technology [J]. Chinese Journal of Management Science, 2023, 31(10): 49-60.

Wang, D., Dong, H., & Zhang, K. Dynamic low-carbon supply chain differential game considering emission reduction enthusiasm driven by blockchain technology [J]. Systems Science and Mathematical Sciences, 2024, 44(5): 1412-1431.