International Journal of Turbomachinery, Propulsion and Power (Feb 2024)

Multidisciplinary Automation in Design of Turbine Vane Cooling Channels

  • Sanjay Nambiar,
  • Anan Ashrabi Ananno,
  • Herman Titus,
  • Anton Wiberg,
  • Mehdi Tarkian

DOI
https://doi.org/10.3390/ijtpp9010007
Journal volume & issue
Vol. 9, no. 1
p. 7

Abstract

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In the quest to enhance the efficiency of gas turbines, there is a growing demand for innovative solutions to optimize high-pressure turbine blade cooling. However, the traditional methods for achieving this optimization are known for their complexity and time-consuming nature. We present an automation framework to streamline the design, meshing, and structural analysis of cooling channels, achieving design automation at both the morphological and topological levels. This framework offers a comprehensive approach for evaluating turbine blade lifetime and enabling multidisciplinary design analyses, emphasizing flexibility in turbine cooling design through high-level CAD templates and knowledge-based engineering. The streamlined automation process, supported by a knowledge base, ensures continuity in both the mesh and structural simulation automations, contributing significantly to advancements in gas turbine technology.

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