Work package 2. Power flows management in a DC microgrid |
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Activity |
Activity result |
Collaborators (Duration of activity) |
T2.1. Predicting power production from weather forecast data under specific REES control conditions and weather forecast uncertainties concept experimental validation for the microwind turbine part in FSB laboratory, experimental validation for the photovoltaic system in LARES |
D2.1.1. Principles and methodologies for REES power profiles prediction |
FER, FSB, DHMZ |
D2.1.2. Experimental validation of the micro wind turbine power profile prediction |
FSB, FER, DHMZ |
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D2.1.3. Experimental validation of the photovoltaic system power profile prediction |
FER, FSB, DHMZ |
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T2.2. Predicting local microgrid load profiles based on identified consumption-correlated data (e.g., date, time, weather conditions) for typical scenarios of DC microgrids usage in buildings |
D2.2.1. Technical report on local microgrid load profiles prediction |
FER, FSB |
T2.3. Managing power flows from/to electrical energy storages present in the microgrid for optimization of techno-economic criteria in deterministic and stochastic frameworks |
D2.3.1. Concept for managing power flows from/to microgrid storages in a deterministic framework |
FER |
D2.3.2. Experimental validation of power flows management from/to microgrid storages in a deterministic framework |
FER |
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D2.3.3. Concept for managing power flows from/to microgrid storages in a stochastic framework |
FER |
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D2.3.4. Experimental validation of power flows management from/to microgrid storages in a stochastic framework |
FER |
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T2.4.Tertiary regulation for the microgrid import/export power flow control integrated with power flows optimization for microgrid storages |
D2.4.1. Technical report on the concept for DC microgrid tertiary regulation integrated with microgrid storages power flows management |
FER, FSB |
D2.4.2. Experimental validation of the concept for DC microgrid tertiary regulation integrated with storages power flows management |
FER, FSB |
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T2.5. Microgrid-grid utility communication platform with a system for virtual negotiations between a collection of microgrids and the utility grid regarding electricity prices |
D2.5.1. Technical report on the concept of microgrid-grid utility communication platform |
FER |
D2.5.2. Implementation of the system for virtual negotiations between microgrids and the utility grid regarding electricity prices |
FER |
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T2.6. Coordinated control of all DC microgrid storage units for long term adherence to predicted charge/discharge profiles and short term compensation of sudden power peaks/sags on the microgrid link |
D2.6.1. Concept for coordinated control for all microgrid storages |
FER, FSB |
D2.6.2. Implementation of the coordinated control for microgrid storages in LARES |
FER, FSB |