Here is a recent paper by the author:angy said:Hi! Does anyone know where can I find the following thesis?
M. Kyncl. Numerical solution of the three-dimensional compressible flow. Master’s thesis, Prague, 2011. Doctoral Thesis
Thank you
The purpose of M. Kyncl's Master's Thesis is to develop a numerical solution technique for simulating 3D compressible flow using computational fluid dynamics (CFD). This technique can be applied to various engineering problems, such as aerodynamics, gas dynamics, and combustion.
The key contributions of M. Kyncl's Master's Thesis include the development of a new method for simulating 3D compressible flow, the validation of this method through various test cases, and the comparison of the results with other existing techniques. Additionally, the thesis provides insights into the behavior of compressible flows and the limitations of the numerical solution approach.
M. Kyncl's numerical solution technique is based on the finite volume method and uses a compressible flow solver coupled with a turbulence model. This allows for a more accurate simulation of complex 3D flows compared to other methods, which may use simpler models or assumptions.
M. Kyncl's numerical solution technique can be applied to various engineering problems involving compressible flow, such as aircraft design, rocket propulsion, and internal combustion engines. It can also be used in research and development for studying the behavior of compressible flows in different scenarios.
M. Kyncl's Master's Thesis can serve as a basis for further research and development in the field of numerical solutions for 3D compressible flow. Researchers can build upon this work and improve the technique, apply it to different types of flows, or use it as a benchmark for evaluating new methods. The thesis also highlights areas for future investigation, such as incorporating more advanced turbulence models or coupling the method with other physical models.