Enhancing Grid Resilience and Reliability
EnergyHub's Edge DERMS platform offers unmatched reliability and flexibility at every level of the grid. By unifying and optimizing behind-the-meter (BTM) energy resources, this platform enables users to dispatch their Virtual Power Plant (VPP) fleet, thereby enhancing grid resilience and alleviating load congestion or constraints. Real-time control capabilities, year-round flexibility, and the ability to have a significant impact on both bulk grid and local distribution make EnergyHub a go-to solution for grid management.
Customer-Centric DER Programs
EnergyHub prides itself on providing customer-centric Distributed Energy Resources (DER) programs. Through the platform's support for program management services, users can easily scale their VPPs to meet their needs. This scalability ensures that businesses can adapt to changing energy demands efficiently and effectively, ultimately leading to optimized energy management strategies.
Grid-Aware VPP Management
EnergyHub's platform excels at addressing grid needs with its grid-aware VPP management strategies. By leveraging insights from forecasting and grid data, users can make informed decisions that enhance grid stability and performance. These data-driven strategies ensure that the VPP operates in alignment with grid requirements, maximizing its impact on energy distribution.
Real-Time Visibility and Device Management
One of the key features of EnergyHub's Edge DERMS platform is its near real-time visibility of VPP impact. Users can monitor program performance as events occur, allowing them to make immediate adjustments to optimize energy usage. This proactive approach to device management enables businesses to respond swiftly to changing conditions, ensuring that the VPP operates at peak efficiency.
Integrated DER Management
Managing multiple DER classes can be complex, but EnergyHub simplifies this process by offering an integrated platform to oversee all DER types. By consolidating management tasks into a single interface, users can balance the unique characteristics of each DER class effectively. This integrated approach optimizes load management strategies, streamlining energy operations for enhanced performance.