EnerVenue has announced the launch of its EnerVenue Energy Rack, each rack consisting of fully integrated Energy Storage Vessels (ESVs) in 150 and 102 kWh configurations that can be flexibly combined as storage requirements evolve.
The EnerVenue Energy Rack includes EnerVenue’s ESV battery technology, custom Battery Management System (BMS) hardware, and all wiring and connections required for fast and simple integration into customised containers or buildings. Energy Racks feature an optimised rack size for use in both 1000 VDC and 1500 VDC systems and can be safely deployed within indoor structures or outdoor-rated enclosures.
Utilising racks designed and engineered specifically for EnerVenue ESVs - with the vessels already installed and all battery management system equipment included - enables customers to implement renewable energy storage installations with unprecedented speed and simplicity.
“Stationary energy storage customers want easily scalable battery architecture, straightforward installation, and a high-density solution that takes up a minimal footprint” said Randall Selesky, CRO, EnerVenue. “The EnerVenue Energy Rack addresses these market needs head-on, offering a pre-engineered and assembled design that maximises energy density while reducing integration and onsite installation labor costs. Our customers get complete flexibility to install and connect as many fully assembled Energy Racks as their energy storage use cases require - simple as that. We’re looking forward to the accelerated pace at which customers will be able to implement new energy storage operations and scale existing installations with our stackable rack units.”
The Energy Racks serve as interlocking modules that can be quickly connected inline or stacked up to three levels high. The technology avoids any thermal runaway risk and are serviceable at a component level, delivering longevity with low maintenance costs. Integrators can connect the Energy Racks in their warehouse environments to create an ‘Energy Venue’ - scaling into the MWh range easily and with complete safety.
ESVs can cycle up to three times per day without rest, feature a 30-year/30,000 cycle expected lifetime, and 2- to 12-hour discharge rates, enabling unique applications and business models for developers, integrators, and owners.