Innovations for organic Rankine cycle power systems: Current trends and future perspectives

Wieland, C.; Schifflechner, C.; Braimakis, K.; Kaufmann, F.; Dawo, F.; Karellas, S.; Besagni, G.; Markides, C. N.

doi:https://doi.org/10.1016/j.applthermaleng.2023.120201

Benutzer: Gast

Dokumenttyp:: Zeitschriftenaufsatz
Autor(en):: Wieland, C.; Schifflechner, C.; Braimakis, K.; Kaufmann, F.; Dawo, F.; Karellas, S.; Besagni, G.; Markides, C. N.
Titel:: Innovations for organic Rankine cycle power systems: Current trends and future perspectives
Abstract:: Since the early 2000s, organic Rankine cycle (ORC) technology has experienced rapid development and market uptake. More than 4.5 GW of total ORC power plant capacity has been installed since then. Due to its flexibility, suitability for small- to medium-scale installations, its applicability to low- to medium-temperature heat sources, and compact design, ORC technology is already considered as state-of-the-art. However, to further increase the technical and economic potential of this technology, significant research is needed to further improve efficiency and other key performance indicators, as well as to address environmental and safety aspects. Therefore, it is important to research new technologies and to foster innovations for improving performance; but it is of similar importance to resolve operational challenges with applied research that focuses closer to the market, and the technology provider and user needs. This vision article outlines the current state-of-the-art and presents current research trends. Parts of this article summarize the research progress reported at the 6th International Seminar on ORC Power Systems (ORC2021) and accompanies the associated special issue published following this event. The article highlights research trends at the concept level, but also at the component and system levels and, therefore, provides a holistic overview for the interested reader regarding the current challenges and potential future research activities in this area. Beyond the variety of cycle concepts in Section 2.1, the different heat sources and applications in Section 2.2, rotating device and turbomachinery (pumps and expansion devices) options in Section 2.3, current R&D trends for working fluids are presented in Section 2.4. This editorial concludes with a more applied perspective on ORC systems, covering process control and a general perspective on the technology in Section 2.5. With an increasing number of ORC plants operating in the field, their integration within a wider energy system is also of increasing importance, and this is addressed in Section 2.6. All prior elements are levers toward the grand challenges in ORC technology: increasing efficiency, reducing investment costs, as well as increasing sustainability, environmental performance, and system compactness.
Stichworte:: Cycle concepts, Organic Rankine cycle, Renewable heat, Supercritical CO2, Waste heat, Working fluid
Dewey Dezimalklassifikation:: 600 Technik
Zeitschriftentitel:: Applied Thermal Engineering
Jahr:: 2023
Band / Volume:: 225
Seitenangaben Beitrag:: 120201
Nachgewiesen in:: Scopus
Reviewed:: ja
Sprache:: en
Volltext / DOI:: doi:https://doi.org/10.1016/j.applthermaleng.2023.120201
Verlag / Institution:: Elsevier Ltd
Print-ISSN:: 1359-4311
Eingereicht (bei Zeitschrift):: 05.09.2022
Angenommen (von Zeitschrift):: 09.02.2023
Publikationsdatum:: 15.02.2023
TUM Einrichtung:: Lehrstuhl für Energiesysteme
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mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Engineering and Design Departments Energy and Process Engineering Lehrstuhl für Energiesysteme (Prof. Spliethoff)Publikationen 2023

mediaTUM Gesamtbestand Hochschulbibliographie 2023 Schools und Fakultäten TUM School of Engineering and Design Lehrstuhl für Energiesysteme (Prof. Spliethoff)