Smart · Clean · Energy
SMALLEST FOOTPRINT IN ITS CLASS
60kW to

Multi-Family Residential · Commercial and Industrial Facilities

Discover the future of energy management with our cutting-edge Energy Storage System.

By choosing our innovative solution, you can significantly reduce your energy costs while simultaneously harnessing the power of renewable energy sources.

Embrace the future of sustainable energy with our best-in-class technology and take control of your energy today.

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Smart Energy Storage Features

Our Smart Energy Storage allows you to maximize your return on investment by supporting many use cases including peak shaving, time-of-use savings (energy arbitrage), net-metering/revenue generation, demand response, and back-up power.

  • Energy demand response is a strategy used in the energy industry to manage the demand for electricity during periods of high usage or peak demand. This strategy involves incentivizing energy users to reduce their electricity consumption during these periods in exchange for compensation or other benefits.

    Demand response programs are typically run by utilities or grid operators, who provide incentives to energy users in exchange for reducing their energy consumption during peak periods. These incentives can take many forms, such as reduced energy bills, rebates, or other financial incentives.

    Energy demand response programs can be particularly beneficial for utilities and grid operators, as they help to reduce the need for expensive peak generation capacity, reduce the risk of blackouts or brownouts, and promote a more efficient and sustainable use of energyDemand response programs can take many forms, from simple voluntary programs that ask energy users to reduce their consumption during peak periods to more complex programs that use advanced technologies such as smart thermostats, automated demand response systems, and energy storage systems to manage energy usage in real-time.

    Overall, energy demand response is an important strategy for managing the demand for electricity during peak periods and can play an important role in helping to build a more sustainable and reliable energy system.

  • Peak shaving is a strategy used in the energy industry to reduce the amount of energy that is drawn from the grid during periods of high demand or peak usage. This strategy involves using energy storage systems or other methods to store energy during times of low demand and then use that energy during peak demand periods.

    Peak shaving can be particularly beneficial for utilities or large energy users, as it can help to reduce the cost of electricity during times of peak demand when electricity prices are typically highest. By reducing the amount of energy that is drawn from the grid during peak periods, utilities can avoid the need to build additional generation capacity or purchase expensive electricity from the market.

    Energy storage systems are a popular choice for peak shaving, as they can store energy during times of low demand and then discharge that energy during peak periods. Other strategies for peak shaving include demand response programs, which incentivize energy users to reduce their energy consumption during peak periods, and energy efficiency measures, which can help to reduce overall energy consumption and demand.

    Overall, peak shaving is a valuable strategy for reducing the cost of electricity during times of high demand and can play an important role in helping to build a more sustainable and reliable energy system.

  • Energy arbitrage is a strategy used in the energy industry to take advantage of differences in electricity prices over time. This strategy involves buying electricity from the grid during periods of low demand when prices are low, storing that electricity, and then selling it back to the grid or using it when prices are high.

    Energy arbitrage can be particularly beneficial for energy storage systems, such as batteries, as they can store excess energy during times of low demand and then discharge that energy during periods of high demand when prices are typically higher.

    The profitability of energy arbitrage depends on the difference in electricity prices over time, as well as the efficiency and cost of the energy storage system. In regions with high price volatility or significant price differences between peak and off-peak periods, energy arbitrage can be a particularly valuable strategy.

    Energy arbitrage can also help to promote a more sustainable and efficient use of energy, as it encourages energy users to shift their consumption from periods of high demand to periods of low demand when electricity is cheaper and often generated from renewable sources.

    Overall, energy arbitrage is an important strategy for maximizing the value of energy storage systems and promoting a more efficient and sustainable use of energy.

  • Frequency regulation refers to the process of maintaining the stability of the electrical grid by adjusting the power output of a Battery Energy Storage System (BESS) in response to fluctuations in grid frequency. The grid frequency, typically set at 60 Hz or 50 Hz, can deviate from its nominal value due to variations in power supply and demand. A BESS equipped with advanced control systems can rapidly charge or discharge energy to help balance the grid and stabilize the frequency within acceptable limits. By injecting or absorbing power as needed, the BESS helps to regulate the grid frequency and ensure a reliable and efficient operation of the electrical system.

Our SMART ENERGY STORAGE comprehensive safety features span its integrated hardware and software technology stack.

Designed to meet industry-leading safety standards, such as UL9540, UL9540A, and IEC compliance, SES is equipped with fast-stop, incipient gas detection, deflagration panels and more. Safety is embedded throughout every level, which continuously monitors, detects, and alerts operators to potential anomalies.

California Title 24

The 2022 update to Title 24 now mandates solar + storage for newly constructed commercial buildings

  • California Title 24 is a set of building energy efficiency standards that require new residential and commercial buildings in California to meet certain energy efficiency requirements. One of the key provisions of Title 24 is the requirement for new residential buildings to include battery energy storage systems (BESS) in certain circumstances.

    Specifically, Title 24 requires new residential buildings that have solar photovoltaic (PV) systems installed to include a BESS with a minimum capacity of 1-2 kilowatt-hours (kWh), depending on the size of the solar PV system. The BESS must be capable of providing backup power to critical loads in the event of a power outage and must meet certain safety and performance standards.

    The inclusion of BESS in new residential buildings is intended to help promote a more sustainable and resilient energy system in California by encouraging the adoption of renewable energy sources and reducing reliance on the grid during periods of high demand or power outages.

    BESS can also provide other benefits beyond backup power, such as energy arbitrage, peak shaving, and demand response. By participating in these programs, the same BESS can earn additional revenue streams, maximizing the value of the system and helping to reduce overall energy costs.

    Overall, the inclusion of BESS in California Title 24 is an important step towards building a more sustainable and resilient energy system and promoting the adoption of renewable energy sources in California.

  • STEP 1: PV Sizing (solar)

    Building conditioned sq ft * PV Capacity multiplier
    OR
    Available rooftop square footage with 70%+ solar access

    STEP 2: Storage Sizing

    PV Wattage * Battery Energy Capacity multiplier /sqrt(efficiency)

    No storage required if:
    - Installed PV is less than 15% of the calculated requirement.
    - BESS capacity would be < 10kWh.
    - Building is <5000 sq ft.

    STEP 3: JA12 Performance

    5kWh Minimum size. 80% round trip efficiency. 4000 cycle life or 10-year warranty (70% EOL).

    BESS Listed to UL1973/UL9540. Inverters Listed to UL1741(a)

Lithium Iron Phosphate (LiFePO4)

The Safest type of BESS Battery

A lithium battery chemistry is critical to achieving a reasonable power density and the cycle life required in JA12 — which is the qualification requirements for battery storage systems to meet the performance standards for solar photovoltaic systems as specified by the California Energy Commission.

Lithium Iron Phosphate (LiFePO4) provides the ideal combination of cycle life, density, and safety.

Let’s Build a Smart Energy Storage Cabinet!

Spec Sheets

  • EnerShed SM Spec Sheet

    EnerShed SM

    Rated AC Output Power: 60 kVA - 150 kVA
    Capacity: 100 kWh - 500 kWH

    Download
  • EnerShed MD Spec Sheet

    EnerShed MD

    Rated AC Output Power: 180 kVA - 270 kVA
    Capacity: 300 kWH -900 kWH

    Download
  • EnerShed LG Spec Sheet

    EnerShed LG

    Rated AC Output Power: 330 kVA - 570 kVA
    Capacity: 550 kWH - 1,900 kWh

    Download

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