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Review of Film Cooling in Gas Turbines with an Emphasis on Additive Manufacturing-Based Design Evolutions

Sandip Dutta, Inderjot Kaur, Prashant Singh

2022Energies38 citationsDOIOpen Access PDF

Abstract

Film-cooling technology is used in high-temperature components of gas turbines to extend their service lives. Hot-gas path components are susceptible to damage or failure in the absence of film cooling. Much of the optimization research efforts have been focused on film hole shapes, heat/mass transfer measurement techniques, and film cooling performance under various mainstream and coolant side operating conditions. Due to recent rapid advancements in the areas of measurement techniques (e.g., pressure-sensitive paints and fast high-resolution imaging) and metal additive manufacturing (AM), film cooling technology has undergone significant changes and shows potential new development. In this review, a historical perspective is discussed covering over five decades of innovation: the geometrical effects from injection angle and hole shapes; flow effects from density ratio, momentum-flux ratio, blowing ratio, advective capacity ratio, and freestream conditions; and more items related to AM. The impact of AM on film hole design strategies, the challenges posed by state-of-the-art AM technology, and pathways for future research are discussed. A comparative analysis of AM assisted film hole fabrication and conventionally manufactured film holes is elaborated.

Topics & Concepts

FreestreamCoolantPressure-sensitive paintEmphasis (telecommunications)Mechanical engineeringMaterials scienceFabricationEngineering physicsGas turbinesAerospace engineeringTurbulenceMechanicsReynolds numberEngineeringElectrical engineeringPhysicsAlternative medicineWind tunnelMedicinePathologyTurbomachinery Performance and OptimizationHeat Transfer MechanismsCombustion and flame dynamics
Review of Film Cooling in Gas Turbines with an Emphasis on Additive Manufacturing-Based Design Evolutions | Litcius