Massen Interview

25Sep

Massen Interview

Interview

1. What is MASEN’s main contribution for the BIG LEAP project?
Answer:

Masen will conduct multiple tests in a virtual demo. The demo has access to diverse battery technologies and various HIL equipment. The demo consists of the virtual testing of a BESS power by a PV plant generating up to 64 kW, simulating a total ESS of 64 kWh with a total power load capacity of up to 100 kW. The total energy of the ESS will be simulated to demonstrate the system behaviour under various sets of conditions and climate network services.

2. How will MASEN’s virtual demo help test different types of batteries in the BIG LEAP project?

Answer: MASEN’s virtual demo for the BIG LEAP project will facilitate testing various battery technologies. This virtual setup allows MASEN to demonstrate and evaluate the performance and interoperability of these batteries under different operational conditions and market scenarios. The use of a digital twin framework and cloud-based capabilities ensures comprehensive testing, aiming to validate the system’s ability to provide diverse grid services efficiently.

3. What types of conditions will be simulated in the ESS tests, and how will this help us understand the system’s performance?

Answer:
The demonstration will take place in Masen’s R&D PHIL Laboratory using the digital twin framework. Conditions to be simulated include:
– Validating BMS Algorithms: Testing BMS algorithms in simulated scenarios to ensure efficient battery management.
– Real-Time Simulation with a Battery Cell Emulator (BCE): Emulating battery cell behavior to test BESS response to dynamic conditions.
-Demonstrating SoX Algorithms: Showcasing the accuracy of State of Charge (SoC), State of Health (SoH), and other algorithms.
Using lab equipment models, the following BESS performance will be demonstrated:
– Peak Shaving/Load Shifting: Optimizing electricity usage by reducing peak demand and shifting consumption to off-peak hours.
– Wind/PV Power Smoothing: Stabilizing output from wind and solar energy to ensure a reliable power supply.
– Power Stabilization: Managing sudden load changes to maintain grid stability.

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