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Merus Energy Storage System (ESS)

Merus Energy Storage System (ESS)

Merus Energy Storage Systems (ESS), built on state-of-the-art-technology are modular solutions in terms of output power and energy. Variety of operation modes and flexibility to connect to any voltage level, makes Merus ESS a preferred solution for complete electricity system value chain starting from the generation. Particularly renewable energy integration, and from Transmission and Distribution (T&D) down to hybrid, island and microgrids. Built-in flexible design permits easy scalability to deliver customized solution from few hundreds of kWh to several hundred MWh. Typical operation modes of Merus ESS include but not limited to are: frequency & voltage regulation, peak shaving and intermittent power support including unique power quality modes.

In the micro grid applications, the core of Merus ESS is the modern Merus MCC Micro Grid Controller which measures various parameters from solar farm, wind farm, diesel generators or any other distributed power generator sources. Based on the micro grid loading requirement versus availability of distributed power sources, Merus MCC controller optimizes and prioritizes the overall power generation resulting in lowest operational costs and maximum savings of fossil fuel. Other key building blocks of Merus ESS systems include Merus Power Conversion System (PCS) and energy storage system.  Merus Power can provide a complete turnkey Merus ESS solution.

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Functions and customer benefits

Key functions
  • Peak shaving
  • Ramp rate management
  • Power dispatch management
  • Spinning reserve
  • Voltage and frequency control
  • Power flow optimization
  • System stability improvement
  • Voltage control
  • Energy management for alternative sources
  • Black start functionality
  • Power quality compliance
Customer benefits
  • Reliable energy supply in real-time
  • Smooth integration of renewable energy
  • Balanced energy supply and demand
  • Uninterrupted power
  • Operational performance and reliability of the plant

 


Applications

Generation- Wind, solar and engine-hybrid power plants
  • Peak shaving
  • Ramp rate management
  • Energy shifting
  • Power dispatch management
Transmission and distribution grids
  • Spinning reserve
  • Frequency regulation
  • Power flow optimization
  • System stability improvement
  • Voltage control
Industrial and natural island grids, microgrids and hybrid systems
  • Energy management for alternative sources including solar, wind and fossil fuel plants
  • Black start functionality
  • Peak shaving
  • Power quality compliance
  • Voltage and frequency control
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