The aim of the project is to expand a trickle-bed bioreactor (ORBIT demo) for biological methanation with archaea to include an electrolyzer, gas processing and gas storage, including the necessary peripherals. A PEM electrolyzer will be specially adapted and extensively tested for this purpose. New glass-based packing materials are being developed, manufactured and investigated for use in the bioreactor. Parallel to the investigations in ORBIT-Demo, a twin is being built on a 5 L scale for further investigations. The overall ORBIT-Demo plant is operated with various bio- or waste gases from industrial processes as CO2 sources. Methanogenic cultures suitable for the different gases and achieving high conversion rates will be identified. Finally, the plant will be integrated and operated as a field test at the wastewater treatment plant in Pfaffenhofen a. d. Ilm.
Es werden potentielle Standorte für PtG-Anlagen mit biologischer Methanisierung in Deutschland identifiziert und anhand verschiedener Gütekriterien bewertet. Basierend auf den Ergebnissen in ORBIT-Twin und ORBIT-Demo wird ein Upscale der Anlage (ORBIT-Industry) geplant und für eine der identifizierten Industriebranchen ausgelegt.
Das Vorhaben ist eine direkte Fortführung des BMWK-geförderten Projekts „ORBIT“ („Optimierung eines Rieselbett-Bioreaktors für die dynamische mikrobielle Biosynthese von Methan mit Archaeen in Power-to-Gas Anlagen“). Die Systemintegration und Kostensenkung von Power-to-Gas Anlagen sowie die Nutzung von biogenen Abfallstoffen (Abgasen) als Eduktgase für die Methanisierung werden als übergeordnete Ziele vom interdisziplinären Konsortium verfolgt.
The phasing out of fossil fuels and raw materials has long been a done deal throughout Europe. Germany has set itself the goal of decarbonizing the country by 2050. This includes increasing energy efficiency in all sectors and expanding renewable energies which primarily means adding wind and solar power plants. This means that renewable electricity becomes primary energy which in contrast to fossil primary energy is of a fluctuating nature. Due to these fluctuations, both temporary and local balancing between energy generation and consumption is necessary.
Power-to-gas (PtG) technology can solve this problem. By converting electricity into hydrogen and then methane, the energy can be easily stored for long periods of time. Local balancing can be done by using the existing gas infrastructure in Germany. Accordingly, PtG can be used for long-term storage and utilize already existing infrastructure even in a future decarbonized energy system. In addition to current regulatory issues, there are also other obstacles that currently stand in the way of rolling out the technology. Many stakeholders do not know if the integration of a PtG plant is technically possible and reasonable within their operations which presents an enormous hurdle for the implementation of such a project. In the field of biological methanation, especially with the use of trickle bed reactors, there are very few projects or plants that already located in the industrial environment. Accordingly, there are also few companies with experience in this field.
The existing trickle bed bioreactor from the “ORBIT” project is to be expanded into a complete plant including an electrolyzer (ORBIT demo) and then be implemented in a containerized design. The comprehensive design enables the system to be easily integrated into already existing industrial processes, as the number of necessary industrial interfaces is significantly reduced. By using a container of a standard size, the system can be easily transported in the future as freight forwarders already have extensive experience with such load sizes.
In order to advance the application of trickle bed reactors, real industrial gases from different PtG sites will be tested both in microbiological studies and in a 5 Litres-scale reactor (ORBIT-Twin) operated in parallel. In close cooperation between the biological laboratory and ORBIT-Twin, it will be determined whether co-cultures or pure cultures are to be preferred regarding their performance and process stability in the different application scenarios. With the integration of ORBIT-Demo at the Pfaffenhofen wastewater treatment plant, a potential application area will be tested under real conditions.
For the successful rollout of the technology, various barriers for stakeholders are to be removed. By identifying and publishing suitable locations for the integration of PtG plants with biological methanation, stakeholders such as project planners and municipalities can gain a quick and free overview of their options. By operating ORBIT-Demo, the project partners gain important experience in the field of biological methanation, allowing Stadtwerke Pfaffenhofen a. d. Ilm to take on a leading role in the municipal sector. For the future implementation of the plant in a size relevant for industrial use, a theoretical upscale (ORBIT-Industry) is already being carried out. For this, all the knowledge gained in the course of the project will further be incorporated.
“ORBIT II” addresses various areas of innovation in the field of biological methanation. The consortium combines expertise from research as well as application and benefits from the many years of experience of the scientific partners in their respective disciplines (methanogenic microorganisms, biological methanation, electrical and systems engineering aspects) as well as the extensive practical experience of the industrial partners. The industrial advisory board complements the project in order to bring the technology to application as quickly as possible.