• Deutsch
Login

Open Access

  • Home
  • Search
  • Browse
  • Publish
  • FAQ

Refine

Author

  • Alexopoulos, Spiros (46)
  • Hoffschmidt, Bernhard (25)
  • Sattler, Johannes Christoph (14)
  • Teixeira Boura, Cristiano José (11)
  • Rau, Christoph (10)
  • Breitbach, Gerd (8)
  • Herrmann, Ulf (8)
  • Latzke, Markus (5)
  • Anthrakidis, Anette (4)
  • Chico Caminos, Ricardo Alexander (4)
+ more

Year of publication

  • 2024 (1)
  • 2022 (3)
  • 2021 (1)
  • 2020 (3)
  • 2019 (5)
  • 2018 (1)
  • 2017 (1)
  • 2015 (3)
  • 2014 (3)
  • 2013 (1)
+ more

Institute

  • Solar-Institut Jülich (41)
  • Fachbereich Energietechnik (17)
  • ECSM European Center for Sustainable Mobility (1)
  • Kommission für Forschung und Entwicklung (1)

Has Fulltext

  • no (46)

Language

  • English (40)
  • German (6)

Document Type

  • Conference Proceeding (27)
  • Article (11)
  • Part of a Book (6)
  • Conference: Meeting Abstract (1)
  • Report (1)

Keywords

  • Central receiver system (2)
  • Concentrated solar collector (2)
  • Solar concentration (2)
  • Central receiver power plant (1)
  • Concentrated systems (1)
  • DNI forecast (1)
  • Direct normal irradiance forecast (1)
  • Fresnel collector (1)
  • Gas turbine (1)
  • Hybridization (1)
+ more

Zugriffsart

  • weltweit (16)
  • campus (9)
  • bezahl (5)

Is part of the Bibliography

  • no (41)
  • yes (5)

46 search hits

  • 1 to 10
  • BibTeX
  • CSV
  • RIS
  • 10
  • 20
  • 50
  • 100

Sort by

  • Year
  • Year
  • Title
  • Title
  • Author
  • Author
An analytical approach to power optimization of concentrating solar power plants with thermal storage (2024)
Cheilytko, Andrii ; Alexopoulos, Spiros ; Pozhuyev, Andriy ; Kaufhold, Oliver
This paper deals with the problem of determining the optimal capacity of concentrated solar power (CSP) plants, especially in the context of hybrid solar power plants. This work presents an innovative analytical approach to optimizing the capacity of concentrated solar plants. The proposed method is based on the use of additional non-dimensional parameters, in particular, the design factor and the solar multiple factor. This paper presents a mathematical optimization model that focuses on the capacity of concentrated solar power plants where thermal storage plays a key role in the energy source. The analytical approach provides a more complete understanding of the design process for hybrid power plants. In addition, the use of additional factors and the combination of the proposed method with existing numerical methods allows for more refined optimization, which allows for the more accurate selection of the capacity for specific geographical conditions. Importantly, the proposed method significantly increases the speed of computation compared to that of traditional numerical methods. Finally, the authors present the results of the analysis of the proposed system of equations for calculating the levelized cost of electricity (LCOE) for hybrid solar power plants. The nonlinearity of the LCOE on the main calculation parameters is shown
Simulation results for a hybridization concept of a small solar tower power plant (2009)
Alexopoulos, Spiros ; Hoffschmidt, Bernhard ; Rau, Christoph ; Schwarzbözl, Peter
viCERP - the Virtual Institute of Central Receiver Power Plant (2009)
Ahlbrink, Nils ; Alexopoulos, Spiros ; Andersson, Joel A. E. ; Belhomme, B. ; Teixeira Boura, Cristiano José ; Gall, Jan ; Hirsch, Tobias
Optimization of the channel form geometry of porous ReSiC ceramic membrane modules (2009)
Alexopoulos, Spiros ; Breitbach, Gerd ; Hoffschmidt, Bernhard
Comparison of steady-state and transient simulations for solar tower power plants with open-volumetric receiver (2011)
Alexopoulos, Spiros ; Hoffschmidt, Bernhard ; Rau, Christoph
Fluid flow in porous ceramic multichannel crossflower filter modules (2007)
Breitbach, Gerd ; Alexopoulos, Spiros ; Hoffschmidt, Bernhard
Solar tower power plant in Germany and future perspectives of the development of the technology in Greece and Cyprus (2010)
Alexopoulos, Spiros ; Hoffschmidt, Bernhard
Since the 80s power production with solar thermal power plants has been a way to substitute fossil fuels. By concentrating direct solar radiation from heliostats very high temperatures of a thermal fluid can be reached. The resulting heat is converted to mechanical energy in a steam cycle which generates electricity. High efficiencies and fast start-up are reached by using air as a heat medium, as well as using porous ceramic materials as solar receiver of the concentrated sunlight. In Germany the construction of a 1.5 MWe solar tower power plant began in 2008. It is operational since December 2008 and started production of electricity in the spring of 2009. In Greece and Cyprus, countries with high solar potential, the development of this competitive solar thermal technology is imperative, since it has already been implemented in other Mediterranean countries.
Solarthermische Kraftwerke mit thermischen Speichern (2010)
Alexopoulos, Spiros ; Hoffschmidt, Bernhard
Solarthermische Kraftwerke stellen eine bedeutende Technologieoption für einen nachhaltigen Energiemix der Zukunft dar. Sie konzentrieren die Strahlung der Sonne, erzeugen Wärme und wandeln diese mit konventioneller Kraftwerkstechnik in Strom um. Die Wärme kann auch gespeichert werden, so dass der Betrieb während des Durchzugs von Wolken möglich ist und bis in die Abendstunden hinein verlängert werden kann. Zu den solarthermischen Kraftwerken gehören neben der Parabolrinne und dem Solarturm der Fresnel-Kollektor und die Dish-Stirling-Systeme. Im Zuge einer späteren Vergrößerung des Solarfeldes von Solarkraftwerken kann mithilfe von thermischen Energiespeichern die solare Energieerzeugung bei gleichbleibender Kraftwerksleistung sukzessiv bis um den Faktor 3 erweitert werden. Es besteht so die Möglichkeit einer massiven Substitution von fossilen Brennstoffen.Bei den ersten solarthermischen Speichern für die SEGS-Parabolrinnekraftwerke wurde Öl als Speichermedium eingesetzt. Ein weiteres Speichermedium ist Salzschmelze, die im Andasol-1-Projekt in Spanien sowie bei Solarturmkraftwerken eingesetzt wird. Beton ist ein weiteres mögliches Speichermaterial für Parabolrinnensysteme. Eine weitere Alternative bei einem Solarturmkraftwerk mit Luft als Wärmeträgermedium ist die Verwendung von keramischen Feuerfestmaterialien in Form von Schüttungen oder stapelbaren, porösen Elementen. In Jülich wurde das weltweit erste solarthermische Turmkraftwerk mit einer Leistung von 1,5 MWe, das Luft als Wärmeträgermedium einsetzt und einen solchen Speicher verwendet, gebaut.
First Simulation Results for the Hybridization of Small Solar Power Tower Plants (2008)
Göttsche, Joachim ; Hoffschmidt, Bernhard ; Alexopoulos, Spiros ; Funke, J. ; Schwarzbözl, P.
Biogas systems: basics, biogas multifunction, principle of fermentation and hybrid application with a solar tower for the treatment of waste animal manure (2012)
Alexopoulos, Spiros
Two of the main environmental problems of today’s society are the continuously increasing production of organic wastes as well as the increase of carbon dioxide in the atmosphere and the related green house effect. A way to solve these problems is the production of biogas. Biogas is a combustible gas consisting of methane, carbon dioxide and small amounts of other gases and trace elements. Production of biogas through anaerobic digestion of animal manure and slurries as well as of a wide range of digestible organic wastes and agricultural residues, converts these substrates into electricity and heat and offers a natural fertiliser for agriculture. The microbiological process of decomposition of organic matter, in the absence of oxygen takes place in reactors, called digesters. Biogas can be used as a fuel in a gas turbine or burner and can be used in a hybrid solar tower system offering a solution for waste treatment of agricultural and animal residues. A solar tower system consists of a heliostat field, which concentrates direct solar irradiation on an open volumetric central receiver. The receiver heats up ambient air to temperatures of around 700°C. The hot air’s heat energy is transferred to a steam Rankine cycle in a heat recovery steam generator (HRSG). The steam drives a steam turbine, which in turn drives a generator for producing electricity. In order to increase the operational hours of a solar tower power plant, a heat storage system and/ or hybridization may be considered. The advantage of solar-fossil hybrid power plants, compared to solar-only systems, lies in low additional investment costs due to an adaptable solar share and reduced technical and economical risks. On sunny days the hybrid system operates in a solar-only mode with the central receiver and on cloudy days and at night with the gas turbine only. As an alternative to methane gas, environmentally neutral biogas can be used for operating the gas turbine. Hence, the hybrid system is operated to 100% from renewable energy sources
  • 1 to 10

OPUS4 Logo

  • Contact
  • Imprint
  • Sitelinks