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Optimization of a novel impulse gas turbine nozzle and blades design utilizing Taguchi method for micro-scale power generation

Author

Listed:
  • Liaw, Kim Leong
  • Kurnia, Jundika C.
  • Lai, Wen Kang
  • Ong, Khai Chuin
  • Zar, Muhammad Aliff B. Mohd Ali
  • Muhammad, M. Fadhli B.
  • Firmansyah,

Abstract

This study is conducted to optimize the nozzle and blade of a compact non-combustion impulse gas turbine driven by the pressurized gas line with Computational Fluid Dynamics (CFD) approach and Taguchi method. For nozzle, throat diameter, nozzle inlet and outlet diameter and convergent-divergent length were investigated. Meanwhile, number of blades, blade radius, blade curvature angle, blade thickness and surface roughness were evaluated for blade. An L25 orthogonal array was chosen for both optimizations. Once optimized, the corresponding operating envelope was identified and compared against the original turbine. When operating at flow rate of 1.2MMSCFD and pressure of 69 bar, the turbine with optimized nozzle produces a maximum power output of 4383.59W at 5500 rpm, while with optimized blades produce 2058.64W at 5000 rpm. Combining optimized nozzle and blades produced 4928.64W at 6000 rpm. These produced powers are significantly higher than the original turbine maximum power of 1743.81W at 4500 rpm. This indicates potential performance enhancement of the turbine by optimizing its blade and nozzle geometry which is useful for its implementation on the offshore platform. To fully utilize this potential enhancement, the electric generator attached to the turbine shall be fine-tuned to have peak power at the optimum rpm band of the optimized turbine.

Suggested Citation

  • Liaw, Kim Leong & Kurnia, Jundika C. & Lai, Wen Kang & Ong, Khai Chuin & Zar, Muhammad Aliff B. Mohd Ali & Muhammad, M. Fadhli B. & Firmansyah,, 2023. "Optimization of a novel impulse gas turbine nozzle and blades design utilizing Taguchi method for micro-scale power generation," Energy, Elsevier, vol. 282(C).
    • Handle: RePEc:eee:energy:v:282:y:2023:i:c:s036054422302412x
    DOI: 10.1016/j.energy.2023.129018
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    References listed on IDEAS

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