Ernst Heinrich Hirschel Livres

Focusing on the principles of three-dimensional attached viscous flows, this book serves as a comprehensive resource for understanding their application in various aircraft. It covers estimated flow properties and provides detailed coordinates for fuselages and wings. Additionally, the inclusion of sample problems with solutions enhances the practical understanding of the concepts presented, making it an essential guide for students and professionals in aerodynamics and aircraft design.

Focusing on the unique challenges of hypersonic vehicles, this book delves into aerothermodynamics with an emphasis on radiation cooling of outer surfaces. It examines the significance of both attached and separated flow properties across different vehicle classes. Key aerothermodynamic phenomena are explored, particularly thermal surface effects and cooling methods. Additionally, the text discusses simulation techniques, addressing computational methods, modeling challenges, and the intricacies of ground and flight simulation, including hot experimental techniques.

History and State-of-the-art of computational Fluid Mechanics Celebrating 100 volumes of NNFM and 40 years of Numerical Fluid Mechanics, written by worldwide leading researchers and practitioners Well balanced combination of theoretical and experimental research useful for engineers, physicists, computer scientists and practitioners The evolution of numerical fluid mechanics and aerodynamics

"This English-language edition of Aeronautical Research in Germany recounts and celebrates the considerable contributions made in Germany to the invention and ongoing development of aircraft. [snip] It covers in fascinating detail the milestones of the first 100 years of aeronautical research in Germany, within the broader context of the scientific, political, and industrial milieus."--Publisher description

Mit einer eingehenden Einführung wird das politische, wissenschaftliche und industrielle Umfeld der deutschen Luftfahrtforschung dargestellt

This book covers a wide range of topics in numerical methods and fluid dynamics. It begins with the numerical solution of steady flow in turbomachinery and extends to strong interactions in transonic flows. It addresses natural convection in high Rayleigh number cavities and computational schemes in curvilinear coordinates for Navier-Stokes flows. The text explores turbulent confined jet mixing and presents a compact Hermitian method for studying unsteady viscous flow around oscillating airfoils. Finite element methods for transonic flow calculations and the evaluation of minimum principles for these computations are also discussed. Additionally, the book investigates compressible flow in fluid domains and includes a numerical study of two-dimensional shock structures. It covers both linear and non-linear parabolic differential equations using third-order time discretization and presents a mixed Eulerian-Lagrangian formulation for moving boundary problems. Topics such as transonic flow over airfoils with tangential injection and steady shock computations using second-order finite-difference schemes are examined. The book also delves into vector processing, treatment of incompressibility, and boundary conditions in three-dimensional numerical spectral simulations. It discusses the design of calculation methods for turbulent boundary layers, diagonal dominant implicit schemes, and techniques for fitting shocks. Other subjects