Mathis Niederau scite author profile

It is crucial today that economies harness renewable energies and integrate them into the existing grid. Conventionally, energy has been generated based on forecasts of peak and low demands. Renewable energy can neither be produced on demand nor stored efficiently.Thus, the aim of this paper is to evaluate Deep Learning-based forecasts of energy consumption to align energy consumption with renewable energy production. Using a dataset from a usecase related to landfill leachate management, multiple prediction models were used to forecast energy demand. The results were validated based on the same dataset from the recycling industry.Shallow models showed the lowest Mean Absolute Percentage Error (MAPE), significantly outperforming a persistence baseline for both, long-term (30 days), mid-term (7 days) and short-term (1 day) forecasts. A potential decrease of up to 23% in peak energy demand was found that could lead to a reduction of 3,091 kg in CO2-emissions per year.Our approach requires low finanacial investments for energymanagement hardware, making it suitable for usage in Small and Medium sized Enterprises (SMEs).

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Evaluation of Deep Learning-based prediction models in Microgrids

Györi¹,

Niederau²,

Zeller³

et al. 2019

Preprint

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IoT-gestützte, kommunale Datenarchitektur für Metropolregionen in Deutschland – Metropolitan Data Space

Niederau¹,

Hoffmann²

2021

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Mathis Niederau

IoT-gestützte, kommunale Datenarchitektur für Metropolregionen in Deutschland – Metropolitan Data Space

Evaluation of Deep Learning-based prediction models in Microgrids

Evaluation of Deep Learning-based prediction models in Microgrids

IoT-gestützte, kommunale Datenarchitektur für Metropolregionen in Deutschland – Metropolitan Data Space

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