Chapter 2 │ Infrastructure 15
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1. PV modules atop HSPB roof
2. The distributed power system (power storage included) at the HBSP’s R&D Building
charged with integrating the building’s power storage system as well as generators and renewable energy sources, thereby creating a microgrid capable of generating, conserving, and storing power at the same time.
With such a distributed power system, it is possible to store low-cost electricity during off-peak times for use during peak hours. In the event of any power failure on the part of Taipower, the system can, in conjunction with generators on the premises, sustain regular power supply for more than four hours. By monitoring power use throughout the building in real time, the smart energy management system can adjust power supply whenever necessary in order not to exceed contractual limits. Moreover, big data analytics makes it possible to present an optimal power supply model and thus save big on power expenses.
In the days ahead, the HSPB is set to further promote renewable energy-related industries. Building on the strengths of the HSP’s long-established semiconductor industry, it will strive for integration across the optoelectronics, information, and telecommunications industries, in turn creating a new hub of next- generation green energy ventures.
▓ Battery Energy Storage System (741 kW) ▓ Wind Power Generation System (3 kW)
▓ PV System (50.4 kW)