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Liquid Crystal Thermography in Gas Turbine Heat Transfer: A Review on Measurement Techniques and Recent Investigations

Srinath V. Ekkad, Prashant Singh

2021Crystals19 citationsDOIOpen Access PDF

Abstract

Liquid Crystal Thermography is a widely used experimental technique in the gas turbine heat transfer community. In turbine heat transfer, determination of the convective heat transfer coefficient (h) and adiabatic film cooling effectiveness (η) is imperative in order to design hot gas path components that can meet the modern-day engine performance and emission goals. LCT provides valuable information on the local surface temperature, which is used in different experimental methods to arrive at the local h and η. The detailed nature of h and η through LCT sets it apart from conventional thermocouple-based measurements and provides valuable insights into cooling designers for concept development and its further iterations. This article presents a comprehensive review of the state-of-the-art experimental methods employing LCT, where a critical analysis is presented for each, as well as some recent investigations (2016–present) where LCT was used. The goal of this article is to familiarize researchers with the evolving nature of LCT given the advancements in instrumentation and computing capabilities, and its relevance in turbine heat transfer problems in current times.

Topics & Concepts

Heat transferThermocoupleThermographyAdiabatic processMechanical engineeringInstrumentation (computer programming)Adiabatic wallTurbineNuclear engineeringGas turbinesComputer scienceCurrent (fluid)Convective heat transferAerospace engineeringMaterials scienceThermodynamicsEngineeringPhysicsOpticsInfraredComposite materialOperating systemHeat Transfer MechanismsTurbomachinery Performance and OptimizationCombustion and flame dynamics
Liquid Crystal Thermography in Gas Turbine Heat Transfer: A Review on Measurement Techniques and Recent Investigations | Litcius