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FFD POWER Turnkey Pre-Installed BESS Solution Provider
We provide modular, plug-and-play BESS solutions ranging from 215 kWh to 200 MWh, featuring integrated lithium batteries, inverters, transformers, and both local and cloud-based Energy Management Systems (EMS).
Concrete Foundation Grounding
SLD – HV or LV
Trench Details-TRAYS
Cable list
Communication Box with EMS
AC-LV panel with Meter
AC-HV panel with Meter
Pre-assembled Cable
Turnkey pre-Installed BESS solution
A turnkey pre-installed BESS solution is a fully integrated energy storage system that is ready to operate upon delivery. Unlike traditional BESS installations requiring on-site assembly and extensive configuration, turnkey systems arrive pre-assembled and pre-tested. This approach significantly reduces installation time, minimizes risks, and ensures the system can be set up and running quickly.
Battery Storage System
The latest generation of long-life LiFePo4 battery technology, equipped with CELL-level BMS for monitoring and managing performance, health, and safety. The system features both active and passive balancing, ensuring optimal charging and discharging, temperature control, and overall system efficiency.
Power Conversion System (PCS)
The PCS is responsible for converting direct current (DC) from the batteries into alternating current (AC) for use in the electrical grid or to power connected loads. It also converts AC back to DC for charging the batteries.
Control and Monitoring System
This includes both software and hardware components that enable remote monitoring, control, and management of the entire energy storage system. It allows operators to optimize performance and respond to fluctuations in grid or energy demand.
Enclosure and Safety Systems
Physical housing, cooling systems, fire protection, and safety features are essential to protect the battery system from environmental conditions and ensure safe operation.
Grid Connection Equipment
Components for connecting the energy storage system to the electrical grid, including inverters, transformers, and switchgear.
Installation and Commissioning Support
By cooperating with hundreds of installation teams, we provide services for system installation and commissioning, ensuring that our system operates according to specification requirements and meets local safety standards.
Training and Support
Training programs and ongoing support are provided to ensure that end-users or operators understand how to operate and maintain the system effectively.
Warranty and Maintenance Services
Warranties on equipment and ongoing maintenance services are provided to address any issues that may arise during the operational life of the system.
EMA® Energy Management Architecture
By fine-tuning the Energy Management Architecture (EMA) settings, the system becomes a versatile solution for addressing various energy concerns. This adaptability allows users to precisely navigate and resolve diverse energy challenges, ensuring optimal performance and efficiency. Whether optimizing power distribution, managing grid interactions, or responding to varying energy demands, the configurable EMA provides a dynamic and comprehensive solution to alleviate your energy worries.
Multi-Application Ready-to-Use Solution
At FFD Power, we specialize in delivering advanced Battery Energy Storage System (BESS) solutions designed to meet the demands of various applications, including peak-valley arbitrage, renewable energy integration, demand response, grid enhancement, and microgrids. Our expertise also extends to the most challenging BESS application—Frequency Containment Reserve (FCR).
Why FCR is Different
Frequency Containment Reserve (FCR) is crucial for maintaining grid stability, requiring precise and rapid response capabilities. Unlike other applications that may focus on energy optimization or integration, FCR demands highly specialized technology and intricate algorithms to keep the grid balanced in real-time. The complexity involved in managing FCR can be daunting, but this is where we excel.
Our Ready-to-Use FCR Solution
At FFD Power, we simplify the complexities of FCR by integrating our advanced Energy Management Architecture (EMA) with Kehua’s Power Conversion System (PCS). Our pre-installed solution is designed to be turnkey, providing everything needed to implement FCR effortlessly. This ready-to-use package ensures seamless operation, compliance with grid standards, and the reliability required to support critical aspects of grid stability.
Frequency Range
Resistance to Rate of Change of Frequency
LFSM-O
LFSM-U
Active Power Management
Frequency Range
- 47.5 Hz – 49.0 Hz not less than 30 minutes
- 49.0 Hz – 51.0 Hz without limitation
- 51.0 Hz – 51.5 Hz not less than 30 minutes
Resistance to Rate of Change of Frequency
Our BESS can remain connected to the grid and continue operating with a frequency change rate of up to 1.7 Hz/s.
LFSM-O
Our BESS can adjust active power when the frequency deviates beyond the insensitivity zone of 50.2 Hz to 50.5 Hz, with a static range of 0.1% to 12%. The static setting should be adjusted in the EMS.
It is capable of responding to frequency deviations with a delay of no more than 300 ms, measured at the inverter output.
LFSM-U
Our BESS can adjust active power when the frequency deviates beyond the insensitivity zone of 49.8 Hz to 49.5 Hz, with a static range of 0.1% to 12%. The static setting should be adjusted in the EMS.
It is capable of responding to frequency deviations with a delay of no more than 300 ms, measured at the inverter output.
Active Power Management
Our BESS is equipped with an interface (input port) that allows for the adjustment of active power output within 10 seconds of receiving a command at the input port.
Automatic Connection
Artificial Inertia
Resistance to Short Circuit
Ability to Generate Reactive Energy
Damping Power Fluctuations
Automatic Connection
Our BESS can automatically reconnect to the grid after an unplanned outage or during transmission system recovery under the following conditions:
- Frequency range: 49.9-50.1 Hz
- Voltage range: 0.9-1.1 voltage ratio
- Minimum delay time: 60 seconds
- Maximum gradient of increase in output active power: ≤ 20% Pmax/min
Artificial Inertia
Our BESS is capable of remaining connected to the grid and operating effectively at a frequency change rate of up to 1.7 Hz/s.
Resistance to Short Circuit
Our BESS is capable of maintaining stable operation during short-circuits, considering the actual line voltage values relative to the mains voltage level at the point of connection, both before and after the fault.
Ability to Generate Reactive Energy
Our BESS is capable of generating reactive power within its technical capacity, should such a requirement be established by the Transmission System Operator (TSO).
Damping Power Fluctuations
Our BESS is equipped with a Power Oscillation Damping (POD) function, specifically designed to stabilize and dampen power fluctuations in the grid.
In industrial and commercial energy storage systems, peak-valley arbitrage involves leveraging energy storage technology to capitalize on fluctuations in electricity prices. The system charges during periods of low electricity demand, which typically come with lower prices, and discharges stored energy during peak demand, when prices are higher. This strategy allows users to take advantage of price spreads and achieve economic benefits. Additionally, peak-valley arbitrage not only reduces electricity costs but also enhances the stability and reliability of the power system.
Traditionally, the capacity of a user’s transformer is fixed. When operating at overload capacity for a specific period, the conventional approach is to expand the transformer’s capacity. However, by installing a compatible energy storage system and charging it using surplus transformer capacity or other integrated power sources, such as photovoltaics, you can release stored energy during overload periods. This approach reduces the transformer’s load and effectively overcomes grid limits, thus avoiding or mitigating the costs associated with transformer capacity expansion.
Renewable energy sources, such as photovoltaic (PV) systems and wind turbines, often experience fluctuations in power output, which can be challenging for grid operators. This can lead to issues like energy dumping or output restrictions. However, integrating an energy storage system (ESS) allows PV and wind farms to operate at their full potential. Excess energy that might otherwise be wasted can be stored in the ESS and released during periods of lower output, ensuring a stable power supply. In addition to smoothing renewable energy output, the ESS can store energy generated during low-price periods and release it when prices rise, thereby increasing revenue for PV and wind farms.
A high-power emergency energy storage system represents a specialized segment within the new energy battery industry, often referred to as a “super-capacity power bank.” This system features high energy storage capacity and output power, and can be charged through the grid or photovoltaic systems during surplus electricity periods. In the event of grid failures or instability, the emergency energy storage system provides reliable power support in off-grid mode, ensuring continuous operation during emergencies. Its versatility extends to various applications, including residential and commercial settings, emergency response, hospital backup power, and power quality optimization.
Installed C&I storage system More than 20 countries in the world
If you’re unfamiliar with Battery Energy Storage Systems (BESS), reach out to your nearest FFD partner using FFD POWER BESS—you might be pleasantly surprised by what you find.
