Progress towards understanding and predicting heat transfer in the turbine gas path

Abstract A new era is dawning in the ability to predict convection heat transfer in the turbine gas path. We feel that the technical community now has the capability to mount a major assault on this problem, which has eluded significant progress for a long time. In this paper we hope to make a case for this bold statement by reviewing the state of the art in three major and related areas, which we believe are indispensable to the understanding and accurate prediction of turbine gas path heat transfer: configuration-specific experiments, fundamental physics and model development, and code development. We begin our review with the configuration-specific experiments, whose data have provided the big picture and guided both the fundamental modeling research and the code development. Following that, we will examine key modeling efforts and comment on what will be needed to incorporate them into the codes. In this region we will concentrate on bypass transition, three-dimensional endwalls, and film cooling. We will then review progress and directions in the development of computer codes to predict turbine gas path heat transfer. Finally, we will cite examples and make observations on the more recent efforts to do all this work in a simultaneous, interactive, and more synergistic manner. We will conclude with an assessment of progress, suggestions for how to use the current state of the art, and recommendations for the future.

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