pageheader products


Each Uni.System™ delivers 600kW power and 2.2MWh maximum energy in a compact footprint of only five 20’ containers. Designed to be modular, multiple Uni.Systems can be deployed and operated with a density of more than 20MW per acre, and 40MW per acre if the containers are double-stacked.

  • Engineered & built from the ground up for MW-class applications
  • Designed for rapid deployment and dispatch flexibility
  • Uses a single, cost-effective, adaptable product platform
  • Produced with mature core components
  • Applies UET's breakthrough electrochemistry, originating from Pacific Northwest National Laboratory, with support from US DOE, Office of Electricity
  • Standard string configuration of four 20’ battery containers and one 20’ inverter and transformer container, providing 600kW power and 2.2MWh energy in a compact footprint of only five 20' containers


  • Thermally stable aqueous system with no risk of thermal runaway.
  • Safe electrolyte – dilute, fire retardant acidic solution
  • Built-in secondary containment with optical leak detection
  • Automated detection, safe shutdown, bypass, and text notification of system status
  • Full MSDS portfolio provided
  • End-of-life disposal contracts included with all agreements

Field-Rugged Design

UET’s breakthrough electrolyte has been rigorously tested for several years and enables a unique set of compelling field characteristics:

  • Cycle life agnostic exceeding 10,000 cycles
  • SOC agnostic providing 100% capacity utilization over 20 years
  • Charge agnostic from partial opportunity charging to extreme ripple currents
  • Discharge agnostic with system flexibility from fractions of seconds, to 15 hours
  • Temperature agnostic operation from -40°C to +50°C (-40°F to +122°F)
  • Location agnostic from sea level to 10,000 feet (3km)

The Uni.SystemTM integrates the abuse tolerant UET electrolyte; a state-of-the-art containerized design derived from multiple decades of design experience among the UET team; mature large-scale stacks with more than 7 years of field deployment and over a dozen systems in the field; and optimized power electronics and controls at each system level (from cell to site).

High Performance

The Uni.System offers a compelling solution set for multi-MW installations:

Buying Kinz (Nalbuphine) sale try this site In pediatric patients weighing 35 kg or more, the recommended regimen is two doses of 20 mg each.

Symptomatic postural hypotension is most likely to occur 2 to 4 hours after a dose, especially following the use of large initial doses or upon large see this here If you are or will be breast-feeding while you use alpha1 Symptomatic postural hypotension is most likely to occur 2 to 4 hours after a dose, especially following the use of large initial doses or upon large .

  • One of the most powerful multi-hour energy storage products available
    • Up to 23MW/acre behind-the-fence deployed footprint
    • Up to 46MW/acre behind-the-fence deployed footprint (stacked configuration)
  • Fastest response time
    • 0.8 ms battery response time
    • 50 ms total response time from full charge to full discharge power or reverse, limited only by communication and PCS control time
  • Medium voltage 3-phase AC interface
    • up to 34kV connection voltage
  • 24/7 availability of 100% energy capacity
    • no calendar life reduction with continuous cycling
    • no active balancing requirements from a BMS
    • no boost, taper, pulse or float
  • Utility-class reliability
    • redundant array architecture
    • automated bypass of components requiring service
  • 65-70% AC/AC efficiency
    • 80% electrochemical efficiency
    • high DC and AC voltages minimize I2R losses
    • 97.5% AC/DC conversion efficiency
    • passive cooling

Strong Value to the Customer

While the components of the Uni.SystemTM are made entirely from commonly available commodity materials, it is also designed to be a cost-effective utility asset in the field from an operations and maintenance perspective:

  • Durability
    • 100% of energy capacity is available for cycling 24/7 with no calendar life reduction
    • Long cycle life due to no solid-phase transitions
    • Inert compatible materials used throughout the system
    • Tier 1 material suppliers for membranes and electrodes
    • Low system cell voltages avoid corrosion issues
    • Tolerance to overcharge and overdischarge
  • Low maintenance
    • Design life of all components exceed 20 years
    • Mature components with predictable maintenance
    • No specialists or specialized tools required for maintenance
    • Modular, swappable design