SolarPACES Conference Proceedings (Nov 2024)

Initial Performance Outlook on the Sliding Particle Receiver (SlideRec)

  • Hicham Barbri,
  • J. Erasmus Derwalt,
  • Alex Boman,
  • Luka Lackovic,
  • Martina Neises von Puttkamer,
  • Reiner Buck

DOI
https://doi.org/10.52825/solarpaces.v2i.2471
Journal volume & issue
Vol. 2

Abstract

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The next generation of central receivers is expected to reach high outlet temperatures of 800 °C and above, maintain stable operation and react to a varying incoming flux magnitude caused by hourly and seasonal variations, endure high-temperature operation, and remain cost-effective. Particle-based central receivers are being considered due to their high-temperature durability and favorable thermal properties of particle materials such as bauxite particles. This paper describes a new particle-based central receiver concept and provides an initial exploration of its performance in comparison with the existing CentRec® technology. Discrete Element Method (DEM) simulations demonstrated that a stable falling and sliding particle film can be achieved inside the SlideRec. The residence time of particle flow within the SlideRec is estimated to be higher than a falling particle receiver and similar to that of an obstructed-flow receiver. The results of the thermal model (incorporating reflective, radiative, convective and conductive heat losses) indicate that the SlideRec demonstrates a higher thermal efficiency than the CentRec® under an incoming aperture flux of between 0.1 MW/m2 and 1.7 MW/m2. The concept therefore is promising and is recommended for further experimental exploration.

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