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Items where Subject is "Institute of Solar Research > Solar Power Plant Technology"
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- Institutes and Facilities (127801)
- Institute of Solar Research (2209)
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- Institute of Solar Research (2209)
Number of items at this level: 62.
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| Acosta Villamil, David Roberto and Garcia, Jesus and Sanjuan, Marco and Oberkirsch, Laurin and Schwarzbözl, Peter (2021) Flux-Feedback as a fast alternative to control groups of aiming points in molten salt power towers. Solar Energy. Elsevier. doi: 10.1016/j.solener.2020.12.028. ISSN 0038-092X. Volltext nicht online. |
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| Bell, Lennard (2019) Entwicklung eines Heliostat-Tracking-Qualifizierungstools für das solarthermische Versuchskraftwerk Jülich. Other, Universität Stuttgart. Volltext nicht frei. |  |
| Bernehed, Aiko (2022) Include-Analysis for C++ Source Code. Bachelor's, Heinrich-Heine-Universität Düsseldorf. | |
| Bernehed, Aiko (2021) ZeoPTES: Zeotropic Pumped Thermal Energy Storage with an Ammonia-Water Mixture as Working Fluid. Energy Technology. Wiley. doi: 10.1002/ente.202100470. ISSN 2194-4288. | |
| Bernehed, Aiko and Helbach, Bianca and Pfahl, Andreas (2021) Small-Scale CSP Plants for Decentralized Power Production Using Piston Steam Engines. 27th SolarPACES Conference, 27. Sep. - 01. Okt. 2021, Online Event. (Submitted) Volltext nicht online. |
| Binder, Matthias and Schuhbauer, Christian and Uhlig, Ralf and Schwarzbözl, Peter and Schwaiger, Ruth and Pitz-Paal, Robert (2022) Comparison of different safety concepts for evaluation of molten salt receivers. Solar Energy, 234, pp. 119-127. Elsevier. doi: 10.1016/j.solener.2022.01.051. ISSN 0038-092X. Volltext nicht online. |
| Broeske, Robin Tim (2018) Bewertung von Einflussparametern auf den Wirkungsgrad eines offenen volumetrischen Receivers in Cavity-Bauform mit Hilfe von CFD. Master's, RWTH Aachen. Volltext nicht frei. | |
| Broeske, Robin Tim and Schwarzbözl, Peter and Birkigt, Lisa and Dung, Sebastian and Müller, Benedikt and Doerbeck, Till (2021) Innovative 3D-Shaped Structures as Volumetric Absorbers. 27th SolarPACES Conference, 27. Sep. - 01. Okt. 2021, Online Event. Volltext nicht frei. | |
| Broeske, Robin Tim and Schwarzbözl, Peter and Hoffschmidt, Bernhard (2022) A new partitioned 1D LTNE continuum model for the simulation of 3D-shaped honeycomb absorbers. Solar Energy (236), pp. 533-547. Elsevier. doi: 10.1016/j.solener.2022.02.024. ISSN 0038-092X. Volltext nicht frei. | |
| Broeske, Robin Tim and Schwarzbözl, Peter and Hoffschmidt, Bernhard (2022) Multi-Dimensional Numerical Analysis of Flow Instabilities in 3D-Shaped Honeycomb Absorbers. Solar Energy (247), pp. 86-95. Elsevier. doi: 10.1016/j.solener.2022.10.007. ISSN 0038-092X. Volltext nicht frei. | |
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| Cheilytko, Andrii (2022) INFLUENCE OF STRUCTURAL CHARACTERISTICS OF POROUS MATERIALS ON HEAT TRANSFER INTENSITY. Actual problems of renewable power engineering, construction and environmental engineering: VI International Scientific-Technical Conference, 24-27 Nov 2022, Kielce, Poland. | |
| Cheilytko, Andrii and Göhring, Felix and Wieghardt, Kai (2022) Receiver efficiency as a determining criterion for the effectiveness of a solar tower. International Conference on Science, Technology and Management (ICSTM - 2022), 23-24 Nov 2022, Paris, France. | |
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| Dianati, Amin (2022) Parallelisierung der Kamera-Target Methode zur Heliostat Kalibration auf Grundlage von Deep Learning. Master's, Hochshule Bonn-Rhein-Sieg. | |
| Drexelius, Maximilian and Schwarzbözl, Peter and Pitz-Paal, Robert (2022) Experimental evaluation of wind induced pressure fluctuations in cavity shaped open volumetric air receivers. Solar Energy, pp. 146-157. Elsevier. doi: 10.1016/j.solener.2022.10.003. ISSN 0038-092X. Volltext nicht frei. | |
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| Emes, Matthew and Jafari, Azadeh and Pfahl, Andreas and Coventry, Joe and Arjomandi, Maziar (2021) A review of static and dynamic heliostat wind loads. Solar Energy (225), pp. 60-82. Elsevier. doi: 10.1016/j.solener.2021.07.014. ISSN 0038-092X. Volltext nicht frei. | |
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| Glinka, Matthias (2021) Strahlungsflussdichtemessung mittels Reflexion an Solartürmen - Inbetriebnahme und Nutzung eines wassergekühlten Rohrreceivers. Bachelor's, RWTH Aachen. Volltext nicht frei. | |
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| Heck, Sophia (2021) Softwarearchitektur für Heliostatfeld-Leitsysteme. Bachelor's, Technische Hochschule Mittelhessen. Volltext nicht frei. | |
| Helbach, Bianca Florentine (2021) Untersuchung thermischer Verdrängungsmaschinen in Carnot-Batterien. Bachelor's, RWTH Aachen. | |
| Hering, Dominik and Binder, Matthias and Schwarzbözl, Peter and Schwaiger, Ruth and Pitz-Paal, Robert (2021) Monitoring of service life consumption for tubular solar receivers: Review of contemporary thermomechanical and damage modeling approaches. Solar Energy, 226, pp. 427-445. Elsevier. doi: 10.1016/j.solener.2021.08.022. ISSN 0038-092X. Volltext nicht frei. | |
| Hirsch, Tobias and Dersch, Jürgen and Noureldin, Kareem and Nouri, Bijan and Maldonado Quinto, Daniel and Schwarzbözl, Peter and Uhlig, Ralf and Wilbert, Stefan (2021) Encyclopedia of Sustainability Science and Technology: Dynamical Behavior of CSP Plants. In: Encyclopedia of Sustainability Science and Technology Springer. doi: 10.1007/978149392493611011. Volltext nicht frei. | |
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| Kuhl, Mathias (2021) Optische Modellierung und numerische Optimierung der konzentrierten Strahlungsverteilung auf einem neuartigen Solarstrahlungsempfänger. Master's, RWTH Aachen University. Volltext nicht frei. | |
| Kuhl, Mathias (2022) A purely data-driven deep learning digital twin approach for a heliostat field for flux density predictions. SFERA III / 16th SOLLAB Doctoral Colloquium, 12.-14. Sep 2022, Zürich, Schweiz. Volltext nicht frei. | |
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| Lademann, Alexander (2021) Strahlungsflussdichtemessung am Rohrreceiver eines Solarturms mittels Reflexion am Absorber. Bachelor's, RWTH Aachen. Volltext nicht frei. | |
| Lenz, Barbara Marie Anna (2022) Sample-Efficient Hyperparameter Optimization of an Aim Point Controller for Solar Power Tower Plants by Bayesian Optimization. Master's, Technical University of Munich. | |
| Lewen, Jan (2022) Deep learning inversion of a raytracer for heliostat surface prediction. SFERA III / 16th SOLLAB Doctoral Colloquium, 12.-14. Sept 2022, Zürich. Volltext nicht frei. | |
| Lewen, Jan and Kuhl, Mathias (2022) GAN-based Calculation of Concentrated Radiation on Solar Tower Receivers. Helmholtz AI conference 2022, 2. - 3. June 2022, Dresden. Volltext nicht frei. | |
| Limper, U. and Klaas, L. and Köhler, M. and Lichte, D. and Maldonado Samaniego, N.J. and Suarez, J. and Jordan, J. and Hoffschmidt, B. (2022) Limited utility of self-made oxygen generators assembled from everyday commodities during the COVID-19 pandemic. Disaster Medicine and Public Health Preparedness, 17, e177. Cambridge University Press. doi: 10.1017/dmp.2022.122. ISSN 1935-7893. | |
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| Matthies, Jonas Horst Maria (2022) Strahlungsflussdichtemessung an Flüssigsalzreceivern in Solarturmkraftwerken mittels Scan-Verfahren. Bachelor's, RWTH Aachen. | |
| Meyer, Daniel (2021) Software Engineering für die Strahlungsflussdichtemessung an Rohrreceivern von Solarturmanlagen. Bachelor's, RWTH Aachen. Volltext nicht frei. | |
| Mirbach, Thorsten (2019) Entwicklung eines kamerabasierten Systems zur Heliostatkalibrierung an einem Solarturmkraftwerk. Bachelor's, Technische Hochschule Köln. Volltext nicht frei. | |
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| Oberkirsch, Laurin and Grobbel, Johannes and Maldonado Quinto, Daniel and Schwarzbözl, Peter and Hoffschmidt, Bernhard (2022) Controlling a solar receiver with multiple thermochemical reactors for hydrogen production by an LSTM neural network based cascade controller. Solar Energy, pp. 483-493. Elsevier. doi: 10.1016/j.solener.2022.08.007. ISSN 0038-092X. | |
| Oberkirsch, Laurin and Maldonado Quinto, Daniel and Schwarzbözl, Peter and Hoffschmidt, Bernhard (2021) GPU-based Aim Point Optimization for Solar Tower Power Plants. Solar Energy. Elsevier. doi: 10.1016/j.solener.2020.11.053. ISSN 0038-092X. | |
| Offergeld, Matthias and Röger, Marc and Stadler, Hannes and Gorzalka, Philip and Hoffschmidt, Bernhard (2020) Flux density measurement for industrial-scale solar power towers using the reflection off the absorber. [Other] | |
| Overberg, Maja (2022) Weiterentwicklung eines Luftreceiverkonzepts für Solarturmanlagen zur Verbesserung des thermischen Wirkungsgrads. Bachelor's, Hochschule Flensburg. Volltext nicht frei. | |
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| Pargmann, Max (2019) Artificial intelligence (AI) driven calibration in solar power plants. SFERA-III, Odeillo, France. | |
| Pargmann, Max and Ebert, Jan and Kesselheim, Stefan and Maldonado Quinto, Daniel and Pitz-Paal, Robert (2022) Gradient-Based Power Plant Design Using Differentiable Ray Tracing. SolarPaces 2022, 26.-30. September 2022, Albuquerque, USA. | |
| Pargmann, Max and Ebert, Jan and Kesselheim, Stefan and Maldonado Quinto, Daniel and Pitz-Paal, Robert (2022) In Situ Enhancement of Heliostat Calibration Using Differentiable Ray Tracing and Artificial Intelligence. SolarPaces 2022, 26.-30. September 2022, Albuquerque, USA. (Submitted) | |
| Pargmann, Max and Ebert, Jan and Kesselheim, Stefan and Maldonado Quinto, Daniel and Schwarzbözl, Peter and Pitz-Paal, Robert (2021) Development of a Digital Twin for Solar Tower Power Plants. Helmholtz Herbst Hackathon 2021, Gummersbach, Deutschland. Volltext nicht frei. | |
| Pargmann, Max and Maldonado Quinto, Daniel (2021) How Can Deep Learning Be Used To Improve The Heliostat Field Calibration, Even With Small Data Sets? - A Transfer Learning Comparison Study. Solar Paces 2020, 28. Sept. - 02. Okt. 2020, Albuquerque - Online. | |
| Pargmann, Max and Maldonado Quinto, Daniel (2019) Performance Increase of Solar Power Plants by applying Deep Learning Algorithms for Heliostatfield Calibration. Solar Paces 2020, 01.-04. Okt. 2019, Süd Korea. | |
| Pargmann, Max and Maldonado Quinto, Daniel and Kesselheim, Stefan and Ebert, Jan (2021) Towards a Neural Network Based Flux Density Prediction - Using Generative Models to Enhance CSP Raytracing. In: Solar P. Solar PACES 2021, 27.-30. September 2021, Albuquerque (Vollständig Online). (Submitted) | |
| Pargmann, Max and Maldonado Quinto, Daniel and Schwarzbözl, Peter and Pitz-Paal, Robert (2021) High Accuracy Data-Driven Heliostat Calibration and State Prediction with Pretrained Deep Neural Networks. Solar Energy, 218, pp. 48-56. Elsevier. doi: 10.1016/j.solener.2021.01.046. ISSN 0038-092X. | |
| Pargmann, Max and Maldonado Quinto, Daniel and Schwarzbözl, Peter and Pitz-Paal, Robert (2020) Development of a Digital Twin for Solar Tower Power Plants Subsection: Heliostatfield Calibration. [Other] | |
| Pfahl, Andreas and Bouzekri, Hicham and Djidiaa, Abdelali and Benitez, Daniel and Nettelroth, Vincent and Rheinländer, Jens and Krause, Andreas (2022) Heliostat Innovation in Detail to Reach Challenging Cost Target. In: 26th International Conference on Concentrating Solar Power and Chemical Energy Systems, SolarPACES 2020, 2445 (120018). AIP Publishing. SolarPACES 2020, 28. Sept. - 02. Okt. 2020, Online. doi: 10.1063/5.0086922. ISBN 978-073544195-8. ISSN 0094-243X. Volltext nicht frei. | |
| Pfahl, Andreas and Rong, Amadeus (2022) Low-Cost Movable Heliostat. In: 26th International Conference on Concentrating Solar Power and Chemical Energy Systems, SolarPACES 2020, 2445 (120019). AIP Publishing. SolarPACES 2020, 28. Sept. - 02. Okt. 2020, Online. doi: 10.1063/5.0086923. ISBN 978-073544195-8. ISSN 0094-243X. Volltext nicht frei. | |
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| Raeder, Christian and Offergeld, Matthias and Röger, Marc and Lademann, Alexander and Zöller, Judith and Glinka, Matthias and Escamilla, José and Kämpgen, Andreas (2021) Proof of Concept: Real-Time Flux Density Monitoring System on External Tube Receivers for Optimized Solar Field Operation. SolarPaces 2021, 27.09. - 01.10. 2021, online. (In Press) Volltext nicht online. |
| Rauser, Nicolas (2020) Software Engineering für die Strahlungsflussdichtemessung an Solarturmreceivern. Bachelor's, RWTH Aachen. Volltext nicht frei. | |
| Richter, Pascal and Tinnes, Janna and Schwarzbözl, Peter and Rong, Amadeus (2018) Efficient Ray Tracing with Real Weatcher Data. MATHMOD 2018, 21.-23.2.2018, Wien, Österreich. Volltext nicht online. |
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| Schwager, Christian and Flesch, Robert and Schwarzbözl, Peter and Herrmann, Ulf and Boura, Cristiano (2022) Advanced two phase flow model for transient molten salt receiver system simulation. Solar Energy, pp. 362-375. Elsevier. doi: 10.1016/j.solener.2021.12.065. ISSN 0038-092X. | |
| Schwarzbözl, Peter and Miadowicz, Inga and Falkenstern, Christoph and Dieckmann, Simon and Enste, Udo and Scholl, Niklas and Warislohner, Stefan and Jörke, Pascal and Golembiewski, Julian and Faulwasser, Timm and Wietfeld, Christian (2022) 5hine - 5G Lösungen für effiziente solarthermische Kraftwerke. Jahreskonferenz Competence Center 5G.NRW, 10.11.2022, Dortmund. | |
| Schwarzbözl, Peter and Pitz-Paal, Robert and Schmitz, Mark (2009) Visual HFLCAL - A Software Tool for Layout and Optimisation of Heliostat Fields. In: Proceedings. SolarPACES 2009, 15.-18.Septmeber 2009, Berlin. ISBN 9783000287558. | |
| Stadler, Hannes and Maldonado Quinto, Daniel and Offergeld, Matthias and Schwarzbözl, Peter and Trautner, Johannes (2019) CFD model for the performance estimation of open volumetric receivers and comparison with experimental data. Solar Energy, pp. 634-641. Elsevier. doi: 10.1016/j.solener.2018.11.068. ISSN 0038-092X. | |
| Stadler, Hannes and Schwarzbözl, Peter and Maldonado Quinto, Daniel and Andlauer, Felix and Trautner, Johannes and Broeske, Robin Tim and Schrüfer, Johannes (2018) Performance Assessment of an Improved Open Volumetric Receiver Design with 250 MWth. 24th International SolarPACES Symposium, 2.-5. Okt. 2018, Casablanca, Marokko. Volltext nicht online. |
| Stadler, Hannes and Schwarzbözl, Peter and Maldonado Quinto, Daniel and Broeske, Robin Tim and Andlauer, Felix and Trautner, Johannes and Schrüfer, Johannes (2019) Performance assessment of an improved open volumetric receiver design with 240 MWth. In: 24th SolarPACES International Conference on Concentrating Solar Power and Chemical Energy Systems, SolarPACES 2018, 2126, 030057. AIP Publishing. SolarPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems, 2–5 October 2018, Casablanca, Morocco. doi: 10.1063/1.5117569. ISBN 978-0-7354-1866-0. ISSN 0094-243X. | |
| Stadler, Hannes and Siegrist, Silvan (2018) Analysing the Wind Flow around Solar Cavity Receivers by Means of Background Oriented Schlieren Imaging. International Symposium on Flow Visualization 18, 26.-29. Jun. 2018, Zürich. Volltext nicht online. |
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| Wieghardt, Kai and Laaber, Dmitrij and Dohmen, Volkmar and Hilger, Patrick and Korber, Daniel and Funken, Karl-Heinz and Hoffschmidt, Bernhard (2018) Synlight - A New Facility for Large-Scale Testing in CSP and Solar Chemistry. In: 23rd International Conference on Concentrating Solar Power and Chemical Energy Systems, SolarPACES 2017, 2033 (040042). AIP Publishing. 23rd SolarPACES Conference, 26.-29. Sept. 2017, Santiago de Chile. doi: 10.1063/1.5067078. ISSN 0094-243X. | |
| Wirtz, Simon Maximilian (2021) Experimentelle und numerische Untersuchung von 3D-profilierten Absorberstrukturen für Solarturmkraftwerke. Master's, RWTH Aachen. Volltext nicht frei. | |
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| Zanger, David and Lenz, Barbara and Maldonado Quinto, Daniel and Pitz-Paal, Robert (2022) Sample-Efficient Hyperparameter Optimization of an Aim Point Controller for Solar Tower Power Plants by Bayesian Optimization. SolarPACES 2022, 27.-30. Sep. 2022, Albuquerque. (Submitted) Volltext nicht frei. | |
| Zanger, David and Oberkirsch, Laurin and Maldonado Quinto, Daniel and Pitz-Paal, Robert (2021) Static Optimal Control: A Closed-Loop Control Strategy for Heliostat Aiming in Solar Power Towers. SolarPACES 2021, 27. Sep. - 01. Okt. 2021, Online. Volltext nicht frei. | |
| Zanger, David Amos Vincent (2020) DEVELOPMENT OF CONTROL STRATEGIES FOR HELIOSTAT AIMING IN SOLAR POWER TOWER PLANTS. Master's, Rheinisch Westfälische Technische Hochschule Aachen. | |
| Zimmermann, Felix (2021) Evaluation and Optimization of Heliostat Calibration Methods. Bachelor's, RWTH Aachen University. | |
| Zöller, Judith (2021) Strahlungsflussdichtemessung mittels Reflexion an Solarturm-Rohrreceivern - Bildaufnahme und softwarebasierte Bildverarbeitung. Bachelor's, RWTH Aachen. Volltext nicht frei. | |
