Design and Implementation of Railway Green Performance Basic Data Collection System
Published 17 January, 2024
Railway transportation plays a crucial role in China's comprehensive transportation system. In 2020, the China National Railway Group issued the "Outline of Railway Leading Planning for Building a Transport Power in the New Era", clearly stating the goal of completing a national railway network of approximately 200,000 kilometers and a high-speed railway network of about 70,000 kilometers by 2035. This indicates a rapid development in the railway industry. However, against the backdrop of the country's continuous promotion of comprehensive green transformation for economic and social development and the goal of peaking carbon emissions by 2030 and achieving carbon neutrality by 2060, there is a growing emphasis on elevating the environmental performance standards for railway construction projects.
Therefore, in-depth research on key green and environmental protection technologies for railway construction projects, quantifying the contribution of railways to national green development policies, and achieving synergistic efficiency in energy savings, carbon reduction, and pollution control have become pressing challenges in the railway industry.
Existing research on railway green performance is mostly based on quantitative assessment models, requiring high-quality basic data on energy consumption and carbon emissions for various professional aspects of railway engineering. However, the current green performance-related data for various professional aspects of railway engineering is isolated, dispersed, and heterogeneous, making applications challenging.
To that end, a pair of researchers from the China Academy of Railway Sciences Corporation Limited addressed the issues of the collection and management of fundamental data for railway green performance. They established a railway green performance basic database using metadata and data exchange schemas. Additionally, a comprehensive data classification system has been implemented, encompassing perspectives from businesses, processes, and entities.
The researchers reported their study in the KeAi journal High-speed Railway.
“We introduced a scheme for extracting BIM (building information modeling) model data, leveraging field similarity matching, and proposed a document content extraction scheme based on image recognition,” says corresponding author Xiangru Lyu. “This has led to the development of a railway green performance basic data collection system, enabling efficient data collection and integrated management.”
This system is poised to offer essential data support for diverse applications, including railway carbon emissions accounting, green cost-benefit analysis, and the evaluation of green design solutions.
Contact author name, affiliation, and email address: Xiangru Lyu, China Academy of Railway Sciences Corporation Limited, Beijing, China, 347098260@qq.com
Funder: This research was funded by the Science and Technology Research and Development Plan of China State Railway Group Co., Ltd. (L2023Z001).
Conflict of interest: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
See the article: Lyu X, Li H, Design and implementation of railway green performance basic data collection system, 1(2023): 4, Pages 265-272. https://doi.org/10.1016/j.hspr.2023.11.003