Projects
School
As the school expands and teaching facilities diversify, the demand for electricity continues to increase. The existing substation equipment, due to long-term disrepair, insufficient capacity, and outdated technology, can no longer meet the requirements for regular operation and safe electricity use. Moreover, as the power equipment ages, the risk of failure increases, posing a potential threat to the safety of the school staff and students. To ensure the stability and safety of the school's power system, improve power supply efficiency, and comply with current power standards, the school actively promotes the substation replacement project. The new equipment will introduce advanced maintenance and monitoring technologies, not only enhancing electricity reliability but also laying a foundation for energy conservation, carbon reduction, and intelligent management, ensuring the normal operation and safety of the educational and living environment.
Project Pain Points and Challenges
Overcome Challenges, Build Efficient Green Energy Systems
The use of electricity on campus involves various teaching, experiment, and living needs. A power outage will severely affect the teaching order and student safety. Therefore, during the replacement process, it is necessary to ensure uninterrupted power supply, which increases the construction difficulty. Secondly, most campus power facilities are old equipment from years ago, and the upgrade needs to consider the existing building structure and space limitations, making construction arrangements relatively complex. Additionally, limited budget means that the replacement plan must achieve a balance between cost control and efficiency improvement. Finally, with the promotion of energy-saving and carbon-reduction policies, schools need to comply with environmental protection regulations and energy efficiency, and the integration of intelligent management systems also increases technical and management challenges.
Solution
To ensure that construction does not affect teaching and student safety, a strategy of phased and segmented construction is adopted, combined with an uninterrupted power supply system (UPS) and temporary backup power to maintain the continuous operation of key facilities. For issues related to old equipment and space constraints, a priority is given to on-site evaluation and structural integration planning, selecting new power equipment that is more compact, modular, and highly compatible to reduce disruption to existing buildings. Finally, facing the needs of energy-saving, carbon reduction policies, and intelligent management, it is recommended to introduce intelligent power monitoring systems and energy management platforms, which not only improve energy use efficiency but also facilitate future operation maintenance and regulatory compliance, achieving modernization and sustainability goals for the school's energy system.
Main Advantages
Success Case
National Yang Ming Chiao Tung University Substation Update Procurement Project
Substation Replacement Project
