Renewable Power Generation by Solar Particle Receiver Driven Sulphur Storage Cycle

Risultati finali

Publications in Scientific Technical Journals and conference presentations

Refers to Task 7.3 Aim: to disseminate project’s results into the scientific community; to maximize the project’s results visibility inside and outside the “solar technology” audience. Success indicators: at least ten (10) publications from consortium members in international scientific journals achieved; one review article; at least ten (10) presentations in international conferences; invited and keynote talks invitations for consortium members in international conferences.

Project’s website, protected acronym, electronic communications network

Refers to Task 7.3 Aim: to enable efficient communication and exchange of confidential information among the partners as well as with the Project’s EU officer; to disseminate effectively the project’s results to a wide audience. Success indicators: Project’s website created and functional on schedule; increased visibility from outside the consortium.

Workshop on Project’s final achievements

Refers to Task 7.3 Aim: to inform major stakeholders in the field on the project’s final results; to demonstrate on-site the proposed technology prototype’s coupling to real-size facilities; to maximize the project’s impact to the most wide and relevant audience. Success indicators: attendance of at least 50 external experts achieved.

Simplified and detailed chemical kinetics scheme

Refers to Task 5.3 Aim: to optimize the high power density combustion with respect to ultrafast mixing and heat release; to generate an overall combustion model; to develop a detailed kinetics scheme for the combustion of elemental sulphur with air and possibly water vapour incorporating NOx chemistry and a respective reduced scheme suitable for integration into a turbulent combustion model. Success indicators: positive evaluation of detailed and reduced chemical reaction schemes via key performance indicators, such as laminar flame velocity and emission characteristics, supported with experimental data.

Selection of burner concept and specification

Refers to Task 5.1 Aim: to elaborate a suitable burner concept for high power density sulphur combustion capable of integration within an over-all power generation and storage concept scheme. Success indicators: suitable conceptual parameters and safety concepts identified; type of peripheral components for supply of feed streams chosen; global process parameters and power modulation range required for integration into a power generation concept determined.

Overall system simulation model

Refers to Task 6.5 Aim: to combine the inputs from the final versions of the sub-models developed and the test campaigns results and develop an overall system simulation model relevant to industrial level application. Success indicators: integrated configuration referring to future industrial-scale STPP designs defined; concepts for the optimum integration of the different components at system-level provided.

Pubblicazioni

Assembly and initial operation of a particle heated lab reactor for the decomposition of sulphuric acid

Autori: Anne Mannheim Supervisors: D. Thomey, V.K. Thanda
Pubblicato in: Numero 8th Jul. 2020, 2020, Pagina/e 96
Editore: RWTH University Aachen, Germany

Technical analysis and economic evaluation of solar reactors for sulfuric acid cracking for the thermochemical production of hydrogen

Autori: Alejandro Guerra Niehoff Supervisors: R. Pitz-Paal, D. Thomey, M. Roeb
Pubblicato in: 2020, Pagina/e 146
Editore: RWTH Aachen University, Germany

Thermochemical Production of Sulfur as Solar fuel: Design and development of moving bed heat exchanger for sulfuric acid evaporation heated by ceramic particles

Autori: Vamshi Krishna Thanda Supervisors: N. Overbeck, D. Thomey
Pubblicato in: Numero 23 Jul. 2018, 2018, Pagina/e 98
Editore: University Duisburg Essen, Germany

Techno-economic study of a concentrated solar thermal plant with sulphur as thermochemical energy storage for baseload power generation and sulphuric acid recycling

Autori: Andreas Rosenstiel Supervisor: D. Thomey
Pubblicato in: Numero 31 May 2018, 2018, Pagina/e 95
Editore: Technical University Berlin, Germany

Process modelling of sulphur based thermochemical cycle S/H2SO4 for renewable power production

Autori: Davide Campagna Tutors: Annarita Salladini, Gaetano Iaquaniello
Pubblicato in: Numero 23 July 2018, 2018, Pagina/e 108
Editore: University of Roma La Sapienza – Faculty of Chemical engineering

Detailed engineering of a particle-heated lab-scale reactor for the decomposition of sulphuric acid

Autori: Lutz Eric Mevißen Supervisor: D. Thomey
Pubblicato in: Numero 15 Oct. 2019, 2019, Pagina/e 109
Editore: Beuth University of Applied Science Berlin, Germny

Thermochemical sulphur cycle for long-term storage of concentrated solar thermal energy: Process implementation of a particle heated reactor concept and technoeconomic optimization

Autori: Julian Belina Supervisors: A. Rosenstiel
Pubblicato in: Numero 7th Jan. 2021, 2021, Pagina/e 82
Editore: RWTH University Aachen, Germany

Evaluation of NOx emissions from high energy density sulfur combustion

Autori: F. Zhang, M. Kurjata, T. Zirwes, M. Fedoryk, S. Harth, N. Sebbar, P. Habisreuther, D. Trimis, H. Bockhorn
Pubblicato in: European Combustion Meeting, Numero 10th, 2021
Editore: European Combustion Meeting

Experimental and numerical investigations of a high-power density sulphur burner

Autori: M. Fedoryk, F. Zhang, H. Heidarifatasmi, N. Sebbar, S. Harth, D. Trimis
Pubblicato in: European Conference on Industrial Furnaces and Boilers, Numero 12th, 2020
Editore: European Conference on Industrial Furnaces and Boilers

Solar Thermochemical Energy Storage in Elemental Sulphur: Design, Development and Construction of a Lab-scale Sulphuric Acid Splitting Reactor Powered by Hot Ceramic Particles

Autori: Thanda, Vamshi Krishna; Thomey, Dennis; Mevißen, Lutz; Noguchi, Hiroki; Agrafiotis, Christos; Roeb, Martin; Sattler, Christian
Pubblicato in: Numero 1, 2020
Editore: AIP Publishing LLC

Composite particles as active catalysts for the SO3 dissociation reaction of the thermochemical storage scheme based on elemental sulphur

Autori: N.I. Tsongidis, K.G. Sakellariou, G. Karagiannakis, C. Pagkoura, A.G. Konstandopoulos
Pubblicato in: International Workshop on Solar Thermo-chemistry, Numero 12-14 September 2017, 2017
Editore: Michigan State University

Speicherung von Solarenergie in elementaren Schwefel: Entwicklung eines mit solar aufgeheizten Partikeln betriebenen Schwefelsäurespaltungsreaktors Storage of solar energy as elemental sulphur: Development of a reactor for sulphuric acid splitting driven by solar heated particles

Autori: N. Overbeck, D. Thomey, V. Thanda, C. Agrafiotis, M. Roeb, C. Sattler
Pubblicato in: Annual Meeting of ProcessNet Expert Group on Energy Chemical Engineering, Numero 7-8 March 2018, 2018
Editore: DECHEMA Gesellschaft für Chemische Technik und Biotechnologie e.V.

Development of catalytic particles for SO3 decomposition of the thermochemical energy storage scheme based on elemental sulfur

Autori: K.G. Sakellariou, N.I. Tsongidis, G. Karagiannakis, C. Pagkoura, A.G. Konstandopoulos
Pubblicato in: 2017 NESTER School, Numero 6-16 November 2017, 2017
Editore: The Cyprus Institute

A computational investigation on the oxidation of sulfur

Autori: N. Sebbar, J. W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: Third general Meeting, SMARTCATs, COST Action CM1401, Numero 25–27 October 2017, 2017
Editore: European Cooperation in Science & Technology (COST) Association

Bedarfsgerechte Solarstromproduktion durch Kombination von Partikeltechnologie und Schwefelspeicher-Kreisprozess On-demand solar power production by combining particle technology and sulphur storage cylce

Autori: D. Thomey, C. Agrafiotis, N. Overbeck, B. Gobereit, C. Frantz, T. Baumann, M. Roeb, R. Uhlig, C. Sattler
Pubblicato in: 20th Solar Colloquium Cologne, Numero 20 July 2017, 2017
Editore: German Aerospace Center (DLR)

A thermochemical study on the primary oxidation of sulfur

Autori: N. Sebbar, J.W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: Proceeding of the Tenth Mediterranean Combustion Symposium – MCS10, Numero 17–21 September 2017, 2017
Editore: The Combustion Institute

A DFT and ab-initio study on the primary oxidation mechanism of S2

Autori: N. Sebbar, J. W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: 8th European Combustion Meeting, Numero 18-21 April 2017, 2017
Editore: The Combustion Institute

Sulphur – solar fuel for on demand power generation

Autori: D. Thomey, C. Agrafiotis, N. Overbeck, M. Roeb, C. Sattler
Pubblicato in: International Workshop on Solar Thermo-chemistry, Numero 12-14 September 2017, 2017
Editore: Michigan State University

Composite particles as active catalysts for the SO3 dissociation reaction of the thermochemical storage scheme based on elemental sulfur

Autori: N.I. Tsongidis, G. Karagiannakis, K.G. Sakellariou, C. Pagkoura, A.G. Konstandopoulos, D. Janus, M. Zagaja, D. Pomykalska
Pubblicato in: Solar PACES 2017, Numero 26-29 September 2017, 2017
Editore: SolarPACES Conference Proceedings

Solar sulphur – fuel for on-demand and carbon-free power production

Autori: D. Thomey, C. Agrafiotis, N. Overbeck, M. Roeb, C. Sattler
Pubblicato in: 2nd Middle East Sulphur, Numero 18-20 March 2018, 2018
Editore: CRU Group

The EU Horizon 2020 project PEGASUS and its role in the CSP

Autori: D. Thomey, C. Agrafiotis, N. Overbeck, M. Roeb, C. Sattler
Pubblicato in: CSP Today Sevilla 2017, Numero 21-22 November 2017, 2017
Editore: NewEnergyUpdate

Sulfur combustion as closing step in a sulfur based solar-thermal cycle

Autori: N. Sebbar, S. Harth, M. Fedoryk, H. Heidarifatasmi, F. Zhang, J. W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: COST Action SMARTCATS – 1st international conference on smart energy carriers, Numero 21-23 Jan. 2019, 2019
Editore: SMARTCATS COST Action

Oxide particles as combined heat storage medium and sulphur trioxide decomposition catalysts for solar hydrogen production through sulphur cycles

Autori: C. Agrafiotis, D. Thomey, L. de Oliveira, C. Happich, M. Roeb, C. Sattler, N. I. Tsongidis, K. G. Sakellariou, C. Pagkoura, G. Karagiannakis, A. G. Konstandopoulos, D. Pomykalska, M. Zagaja and D. Janus
Pubblicato in: 9th International Conference on Hydrogen Production (ICH2P-2018), Numero 16-29 Jul. 2018, 2018
Editore: ICH2P-2018

Combustion Processes in Energy Conversion for Use of Renewable Energies

Autori: N. Sebbar, T. Zirwes, P. Habisreuther, H. Bockhorn and D. Trimis
Pubblicato in: 7th annual meeting of KIT Energy Center, Numero 26 Jun. 2018, 2018
Editore: KIT Energy Center

Sulphur Combustion at High Power Density for a Sulphur-based Energy Storage for Solar Power

Autori: M. Fedoryk, S. Harth, N. Sebbar, D. Trimis
Pubblicato in: 7th annual meeting of KIT Energy Center, Numero 26 Jun. 2018, 2018
Editore: KIT Energy Center

Investigation of S2 + air combustion

Autori: N. Sebbar, T. Zirwes, P. Habisreuther, H. Bockhorn, D. Trimis
Pubblicato in: Joint Meeting of the German and Italian Sections of the combustion Institute, Numero 23-26 May 2018, 2018
Editore: Combustion Institute

A Thermochemical and Kinetic Study of Species and Reactions Occurring in the S-N-O System

Autori: N. Sebbar, J. W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: 9th European Combustion Meeting, Numero 14-17 Apr. 2019, 2019
Editore: The Combustion Institute

Numerical simulation of sulfur combustors with high-power-density

Autori: F. Zhang, H. Heidarifatasmi, T. Zirwes, M. Fedoryk, S. Harth, N. Sebbar, P. Habisreuther, D. Trimis, H. Bockhorn
Pubblicato in: 9th European Combustion Meeting, Numero 14-17 Apr. 2019, 2019
Editore: The Combustion Institute

Ignition behaviour of sulfur in air based on modified reaction kinetics

Autori: T. Zirwes, N. Sebbar, P. Habisreuther, S. Harth, F. Zhang, H. Bockhorn, D. Trimis
Pubblicato in: 11th Mediterranean Combustion Symposium, Numero 16-20 Jun. 2019, 2019
Editore: The Combustion Institute

Entwicklung von Schwefelbrennern mit hohen Leistungsdichten Developent of sulphur burners with high power density

Autori: M. Fedoryk, F. Zhang, H. Heidarifatasmi, T. Zirwes, N. Sebbar, S. Harth, D. Trimis
Pubblicato in: Jahrestreffen der ProcessNet Fachgruppe Hochtemperaturtechnik, Numero 2-3 Apr. 2019, 2019
Editore: DECHEMA

A Thermochemical Study of Reactions Occurring in the S-N-O System

Autori: N. Sebbar, J. W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: 11th Mediterranean Combustion Symposium, Numero 16-20 Jun. 2019, 2019
Editore: The Combustion Institute

Materials for High Temperature Solar Chemistry Applications: Energy Storage & Solar Fuels

Autori: Karagiannakis G.
Pubblicato in: 47th IUPAC World Chemistry Congress, Numero July 5-12 2019, 2019
Editore: IUPAC

Solar-thermal power and chemical engineering: new Opportunities

Autori: M. Roeb
Pubblicato in: Summer School – Making Business with Green Chemistry & Sustainable Energy, Numero 22-26 Jul. 2019, 2019
Editore: NextChem

Schwefelbrenner mit hoher Leistungsdichte für Solarkraftwerke mit Schwefelspeicherzyklus Sulphur burner wiht high power desity for solar power plants with sulphur storage cycle

Autori: D. Trimis, S. Harth, N. Sebbar, M. Fedoryk, H. Heidarifatasmi, F. Zhang
Pubblicato in: 22nd Solar Colloquium Cologne, Numero 10 Jul. 2019, 2019
Editore: DLR

Iron oxide-based particles for high temperature thermochemical energy storage via the elemental sulfur thermochemical cycle

Autori: Nikolaos I. Tsongidis, George Karagiannakis, Kyriaki G. Sakellariou, Chrysa Pagkoura, Athanasios G. Konstandopoulos
Pubblicato in: SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems, 2019, Pagina/e 210009
Editore: AIP Publishing
DOI: 10.1063/1.5117758

Numerical Investigation of a Sulfur Combustor

Autori: F. Zhang, H. Heidarifatasmi, S. Harth, T. Zirwes, M. Fedoryk, N. Sebbar, D. Trimis
Pubblicato in: 29. Deutscher Flammentag, Numero 17-18 Sep. 2019, 2019
Editore: Deutsche Sektion des Combustion Institutes und DVV/VDI-Gesellschaft Energie und Umwelt

Solar Energy Conversion and Storage through Sulphur-Based Thermochemical Cycles Implemented on Centrifugal Particle Receivers

Autori: Christos Agrafiotis, Dennis Thomey, Lamark de Oliveira, Nicolas Overbeck, Vamshi Krishna Thanda, Martin Roeb, Christian Sattler
Pubblicato in: Proceedings of 25th SolarPACES Conference, Numero 1-4 Oct. 2019, 2019
Editore: SolarPACES

BrightSource's optimized solar field layout performance: General considerations and case study

Autori: Morag Am-Shallem
Pubblicato in: 3rd CSP Focus Innovation 2019, Numero 24-25 Oct. 2019, 2019
Editore: CSP Focus

Safety Issues in Heliostat Movement in The Solar Field

Autori: Jonny Gulayev
Pubblicato in: 3rd CSP Focus Innovation 2019, Numero 24-25 Oct. 2019, 2019
Editore: CSP Focus

Recent trends in Thermo-Chemical heat Storage

Autori: Karagiannakis G., Lorentzou S., Pagkoura C., Sakellariou K.G., Konstandopoulos A.G.
Pubblicato in: 13th Pacific Rim Conference of Ceramic Societies, Numero October 27 - November 1, 2019, 2019
Editore: The American Ceramic Society

Sulphur – solar fuel for on demand power generation

Autori: Dennis Thomey, Christos Agrafiotis, Vamshi Krishna Thanda, Lamark de Oliveira, Kai-Peter Eßer, Martin Roeb, Christian Sattler
Pubblicato in: IGSTC Workshop, Cologne, Numero 17-18 Oct. 2019, 2019
Editore: DLR

Solar energy conversion and storage through sulphur-based thermochemical cycles implemented on centrifugal particle receivers

Autori: Christos Agrafiotis, Dennis Thomey, Lamark de Oliveira, Nicolas Overbeck, Vamshi Krishna Thanda, Martin Roeb, Christian Sattler
Pubblicato in: SOLARPACES 2019: International Conference on Concentrating Solar Power and Chemical Energy Systems, 2020, Pagina/e 170001
Editore: AIP Publishing
DOI: 10.1063/5.0028766

A thermochemical study on the primary oxidation of sulfur

Autori: N. Sebbar, J.W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: Combustion Science and Technology, 2018, Pagina/e 1-15, ISSN 0010-2202
Editore: Taylor & Francis
DOI: 10.1080/00102202.2018.1455134

Solar hydrogen production via sulphur based thermochemical water-splitting

Autori: Christian Sattler, Martin Roeb, Christos Agrafiotis, Dennis Thomey
Pubblicato in: Solar Energy, Numero 156, 2017, Pagina/e 30-47, ISSN 0038-092X
Editore: Pergamon Press Ltd.
DOI: 10.1016/j.solener.2017.05.060

S 2 + Air Combustion: Reaction Kinetics, Flame Structure, and Laminar Flame Behavior

Autori: N. Sebbar, T. Zirwes, P. Habisreuther, J. W. Bozzelli, H. Bockhorn, D. Trimis
Pubblicato in: Energy & Fuels, Numero 32/10, 2018, Pagina/e 10184-10193, ISSN 0887-0624
Editore: American Chemical Society
DOI: 10.1021/acs.energyfuels.8b01019

Oxide particles as combined heat storage medium and sulphur trioxide decomposition catalysts for solar hydrogen production through sulphur cycles

Autori: Christos Agrafiotis, Dennis Thomey, Lamark de Oliveira, Christoph Happich, Martin Roeb, Christian Sattler, Nikolaos I. Tsongidis, Kyriaki G. Sakellariou, Chrysoula Pagkoura, George Karagiannakis, Athanasios G. Konstandopoulos, Daria Pomykalska, Marek Zagaja, Dariusz Janus
Pubblicato in: International Journal of Hydrogen Energy, Numero 44/20, 2019, Pagina/e 9830-9840, ISSN 0360-3199
Editore: Pergamon Press Ltd.
DOI: 10.1016/j.ijhydene.2018.11.056

Numerical evaluation of a novel double-concentric swirl burner for sulfur combustion

Autori: Feichi Zhang, Hosein Heidarifatasmi, Stefan Harth, Thorsten Zirwes, Robert Wang, Michal Fedoryk, Nadia Sebbar, Peter Habisreuther, Dimosthenis Trimis, Henning Bockhorn
Pubblicato in: Renewable and Sustainable Energy Reviews, Numero 133, 2020, Pagina/e 110257, ISSN 1364-0321
Editore: Elsevier BV
DOI: 10.1016/j.rser.2020.110257

Risultati finali

Pubblicazioni

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