Keywords
Weak current system design
Technical management strategies
Submitted : 2025-12-30
Accepted : 2026-01-14
Published : 2026-01-29
Abstract
Environmental protection projects face challenges in electrical commissioning and weak current system design, including multi-system coordination, extreme environment adaptation, and dynamic risk management. Guided by the Technical Specifications for Intelligent Buildings and Weak Current Systems (GB/T 50314-2023), this study proposes a full lifecycle management framework integrating redundant design, modular optimization, and IoT-based real-time monitoring. A fuzzy comprehensive evaluation model quantifies risk levels, enhancing system reliability and energy efficiency. BIM and data-driven methods optimize design-installation coordination, while dynamic data asset management and risk early warning systems improve operational robustness. Future research should focus on AI-driven automation and blockchain applications to advance intelligent and sustainable technical management.
References
Lv P, Tao X, Bi S, et al., 2020, Design of Integrated Control Platform for Weak Current System Based on BIM Technology. Automation and Instrumentation, 2020(4): 129–132.
Li Y, 2019, Design of Environmental Monitoring System for General Weak Current Computer Room. Communication Power Supply Technology, 36(3): 205–206.
Xie L, Ma X, Lu Y, et al., 2013, Construction of an Environmental Sensitive Target Management System for Power Transmission and Transformation Projects Based on 3S Technology. Shandong Electric Power Technology, 2013(1): 27–29.
Fan Y, 2021, Environmental Management Throughout the Design Phase of Power Grid Projects. Low Carbon World, 11(2): 146–147.
Wang L, Zhao A, 2018, A Brief Discussion on the Design of Environmental Monitoring System for General Weak Current Computer Room. Digital User, 24(6): 20.
Zhang Q, 2012, Application of Electrical Control in Environmental Protection Engineering. China New Technology and New Products, 2012(1): 120.
Qiu J, 2017, A Brief Analysis of the Practical Application of Electrical Automation in Engineering. Regional Governance, 2017(12): 120–121.
Liu G, 2017, Discussion on the Application of Electrical Control in Environmental Protection Engineering. Chemical Design Communication, 43(7): 250–251.
Zhou Z, Wang S, Wen J, et al., 2010, Research on the Design of Energy saving, Environmental Protection and Economic Dispatch System for Power Grid. East China Electric Power, 38(1): 51–53.
Meng L, 2019, Quality Control and Energy Saving Measures for Electrical Equipment Engineering in the Environmental Protection Industry. Popular Standardization, 2019(18): 117–118.