Numerical analysis of small scale axial and radial turbines for solar powered Brayton cycle application

Ahmed M. Daabo, Saad Mahmoud, Raya K. Al-dadah, Ayad M. Al Jubori, Ali Bhar Ennil

Research output: Contribution to journalArticlepeer-review

17 Citations (Scopus)
367 Downloads (Pure)

Abstract

In the current work two types of turbines, axial and radial turbine, with their three configurations, Single Stage Axial, Dual Stage Axial and Single Stage Radial turbines, for solar Brayton cycle applications have been parametrically investigated with the aim of figuring out their performance in terms of efficiency and power output. The mean line design for each turbine was effectively completed in order to figure out the initial guess for the dimensions, the power output and the efficiency. Consequently, the Computational Fluid Dimension CFD analysis was employed for the sake of visualising the 3-Dimentions behaviour of the fluid inside the turbine as well as determining the main output like the power output and the efficiency at different boundary conditions. These boundary conditions were selected to be compatible with a small scale solar powered Brayton cycle. An evaluation for some types of losses such as tip clearance and trailing edge losses as well as the total loss coefficient of the rotor of each configuration, in terms of pressure losses, has been established as well. The current paper deals with Small Scale Turbines SST ranged from 5 to 50 kW as a power output. The outcomes showed that the Dual stage axial turbine performances better at the off design conditions. By contrast, the single stage radial turbine achieved higher power output during the same operating conditions. The results of the CFD analysis have been successfully validated against the experimental work done by the researchers for small scale (axial) compressed air turbine in the lab.
Original languageEnglish
Pages (from-to)672-693
JournalApplied Thermal Engineering
Volume120
Early online date30 Mar 2017
DOIs
Publication statusPublished - 25 Jun 2017

Keywords

  • 1D & 3D analysis
  • Single stage and dual stages
  • Axial turbine
  • Radial turbine
  • Brayton cycle

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