Representative deployments delivered using technologies from Bright Grid's global technology partners.
A remote island port construction project required reliable energy infrastructure without access to grid power. Traditional diesel generation was costly, logistically complex, and environmentally challenging in a sensitive coastal environment.
Bright Grid deployed a BRIGHT EDGE Remote M200 mobile microgrid combining solar PV, battery storage, and intelligent diesel coordination. The containerised system was delivered by barge and operational within days of arrival.
Significant reduction in diesel generator runtime. Lower fuel consumption, reduced operating costs, and a scalable energy platform that adapted to changing construction demands throughout the project lifecycle. Demonstrates how mobile microgrids can accelerate infrastructure development in locations where grid access is unavailable or uneconomical.
A Netherlands-based renewable energy operator sought to maximise the value of their solar generation assets. Excess solar energy was being exported at low feed-in tariffs rather than being stored and dispatched at higher-value periods.
Five BRIGHT EDGE One 100 units were deployed to create a coordinated energy storage and trading system. The Bright Grid Nexus platform manages real-time energy dispatch, enabling participation in energy trading markets.
The project transformed renewable generation into an actively managed energy asset, creating additional revenue opportunities while improving overall energy utilisation. Intelligent energy dispatch delivers greater operational flexibility and improved long-term project economics.
A Swedish electricity network operator faced increasing frequency fluctuations due to growing renewable energy penetration. Traditional grid stabilisation methods were expensive and slow to respond.
Two BRIGHT GRID-500 Plus units provide fast-response frequency regulation and grid support services. The battery system responds to frequency deviations in milliseconds, maintaining power quality across the local distribution network.
Fast-response grid support, enhanced power quality, and improved network resilience. The system supports greater renewable energy penetration while reducing the operational impact of frequency fluctuations on the electricity network.