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End-to-End Turnkey Energy Storage Solutions

Committed to innovation, Teplore continually strives to deliver the most efficient and reliable energy storage solutions to the market. By delivering turnkey energy storage solutions, we enable forward-thinking customers to benefit from opportunities in the flexibility market quickly, securely and sustainably.

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Commericial & Industrial

Commericial & Industrial normally suffers high electrical bills, TensorPack with multi-use capabilities that can run several storage applications in parallel of time of use, peak shaving, renewable self-consumption and microgird, where high storage capacity with many guaranteed cycles for sustainable power delivery.

  • Load Shifting

  • Demand Charge

  • PV Consumption

  • Backup Power

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    Load Shifting

    Use Tensorpack to store energy during off peak periods and release it during peak periods. This can help customers reduce their electricity expenses.

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    Demand Charge

    Tensorpack can help commercial users adjust their power usage according to demand and electricity price changes, reducing the maximum demand charge each month and overall energy costs.

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    PV Consumption

    For Commericial & Industrial with solar PV panels installed, Tensorpack can store excess energy produced during the day and use it when needed. This not only improves the efficiency of solar energy utilization but also reduces dependence on the traditional grid.

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    Backup Power

    In the event of power outages or instability, Tensorpack can serve as a reliable backup power source. This is especially important for critical industries that require continuous power supply and can also reduce users' reliance on diesel generators.

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Charging Stations

The grid power connection easily reaches its limits when constructing large EV chargers. Deploying Tensorpack can avoid transformer expansion costs since Tensorpack regulates the load peaks to protest against overload and reduce electrical bills.

  • Load Shifting

  • Demand Charge

  • PV Consumption

  • Capacity Expansion

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    Load Shifting

    Use Tensorpack to store energy when power demand is low and release it during peak periods. This can help customers reduce their electricity expenses during peak hours.

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    Demand Charge

    Tensorpack can help commercial users adjust their power usage according to demand and electricity price changes, reducing the maximum demand charge each month and overall energy costs.

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    PV Consumption

    For businesses with solar PV panels installed, Tensorpack can store excess energy produced during the day and use it when needed. This not only improves the efficiency of solar energy utilization but also reduces dependence on the traditional grid.

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    Capacity Expansion

    Tensorpack can be used in conjunction with supercharging stations to provide additional power when short-term power demand increases significantly, thus avoiding expensive infrastructure upgrades and shortening project duration.

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Microgrids

Distributed energy storage combined with photovoltaic, diesel generators and other power sources to provide a stable power system in remote areas or areas with unstable power grids.

  • Local Microgrid

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    Local Microgrid

    Form a local microgrid with Tensorpack, combining with sources such as PV and diesel generators to form a small-scale power supply network that can operate independently of or connected to the main grid. Tensorpack stores energy generated from solar or other renewable sources and absorbs energy from the main grid when prices are low. Thus, when the main grid fails or prices rise, the local microgrid can switch to an independent operation mode, continuing to provide power to users.

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Ancillary Services

Connect Tensorpack to the flexibility market and regulate the frequency to the national grid, including FFR and FCR-D services, to get benefit for participating in the up/down frequency regulations.

  • FFR

  • FCR-D

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    FFR

    FFR, mitigates large frequency down by rapidly regulating the system. The need to FFR  typically occurs in the summer months with low inertia periods. The purpose of FFR is solely to reduce momentary and large frequency changes. FFR therefore acts as  synthetic  inertia  for  the power system.

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    FCR-D

    FCR-D, also called primary reserve, exists to stabilize the frequency in the electricity grid, in the event of a frequency down/up. FCR-D is automatically activated based on a measurement of the frequency in the power grid.

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