Economic and Technical Evaluation of Flexible Power Generation Scenarios for a Biogas Plant

Biogas plants can contribute significantly to the integration of renewable energy sources in the energy system due to their flexible operability. The storability of the energy carrier enables them to generate power in a demand-oriented way and to participate in electricity markets that focus on bala...

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Bibliographic Details
Main Authors: Ervin Saracevic, Franz Theuretzbacher, David Woess, Anton Friedl, Angela Miltner
Format: Article
Language:English
Published: SDEWES Centre 2020-06-01
Series:Journal of Sustainable Development of Energy, Water and Environment Systems
Subjects:
Online Access: http://www.sdewes.org/jsdewes/pid7.0289
Description
Summary:Biogas plants can contribute significantly to the integration of renewable energy sources in the energy system due to their flexible operability. The storability of the energy carrier enables them to generate power in a demand-oriented way and to participate in electricity markets that focus on balancing power supply and demand. In this study process simulation was used to investigate the economic and technical effects of flexible power generation on an Austrian biogas plant that focuses on biomethane production. Three different power generation scenarios were evaluated considering participation in the electricity spot market and markets for control energy reserves, while continuously producing biomethane. The results show that no major technical adaptions are needed for flexible power generation but an appropriate support scheme (premium system) is required to make demand-oriented power generation economically viable. The determined required premium was 37.3-99.9 EUR/MWh depending on the power generation scenario.
ISSN:1848-9257