Heat Transfer in Gas Turbine Systems

Chapter 1 Heat transfer issues in gas turbine systems Introduction; Combustor wall cooling; Heat loads on combustor walls; Guide vane and turbine blade cooling; Recuperation and regeneration; Intercooling; Concluding remarks. Chapter 2 Combustion chamber wall cooling: the example of multihole devices Introduction; Techniques for combustion wall cooling;Present experimental facilities; Results; Conclusion. Chapter 3 Conjugate heat transfer: an advanced computational method for the cooling design of modern gas turbine blades and vanes Introduction; Conventional cooling design; New approach: Conjugate Calculation; Validation; Application for advanced cooling configuration; Conclusions. Chapter 4 Enhanced internal cooling of gas turbine airfoils Introduction; Stationary straight channels with rib-roughened walls; Stationary multipass channels with smooth and roughened walls; Rotating straight and multipass channels with smooth walls; Rotating straight and multipass channels with roughened walls; Channels with pin fins; Channels with ejection holes; Concluding remarks. Chapter 5 Computations of internal and film cooling Introduction; In overview on CFD; Simulations of internal cooling; Simulations of film cooling; Final remarks. Chapter 6 Heat transfer predictions of stator/rotor blades Introduction; Turbulence models; Numerical models; Computations; Summary. Chapter 7 Recuperators and regenerators in gas turbine systems Introduction; Some concepts of enhancing the cycle efficiency using heat exchangers; Areas of application; Recuperator design; Basic heat exchanger types; Materials; Computational Fluid Dynamics (CFD); Final remarks. Chapter 8 Experimental heat transfer in stationary rib-roughened rectangular channels Introduction; Rectangular channels roughened with 90 degree rib; Rectangular channels roughened with angled rib; Effects of rib profile and spacing on heat transfer and friction in a rectangular channel; Channels roughened with ribs on all walls; Heat transfer coefficient on the rib surface. Chapter 9 Experimental heat transfer in roughened leading- and trailing-edge and in spanwise rotating channels Introduction; Trailing-edge cooling cavities; Leading-edge cooling cavities; Rotating geometries.