"Physique." . . "Appl.Mathematics/Computational Methods of Engineering." . . "TECHNOLOGY & ENGINEERING / Hydraulics" . . . . "Physics." . . "Astronomie." . . "Astrophysics and Astroparticles." . . "Astrophysique Informatique." . . "Fluides, Mécanique des Informatique." . . . . . . . . . . . . . . "In this \"SpringerBrief\" the author considers the underlying problems and questions that are common to numerical models of turbulence in different astrophysical systems. Turbulence has emerged as an important research topic in several areas of astrophysics. Understanding and modeling turbulence is particularly important for the dynamics of the interstellar medium, but also for the intergalactic medium, as well as in stars. The advancement of methods for numerical simulations of astrophysical turbulence, however, is still challenging because of gravity, strong compressibility, magnetic fields, and other effects. The book begins with a review of general aspects of numerical simulations of turbulence. In the main part the author presents findings from his numerical studies on astrophysical turbulence and discusses the astrophysical implications. He also explains in detail the numerical schemes utilized."@en . . . . . . . . . . . . "Numerical modelling of astrophysical turbulence" . . "Numerical modelling of astrophysical turbulence"@en . . . "Numerical Modelling of Astrophysical Turbulence" . "Electronic books"@en . . "Numerical Modelling of Astrophysical Turbulence"@en . . . "In this \"SpringerBrief\" the author considers the underlying problems and questions that are common to numerical models of turbulence in different astrophysical systems. Turbulence has emerged as an important research topic in several areas of astrophysics. Understanding and modeling turbulence is particularly important for the dynamics of the interstellar medium, but also for the intergalactic medium, as well as in stars. The advancement of methods for numerical simulations of astrophysical turbulence, however, is still challenging because of gravity, strong compressibility, magnetic fields, and other effects. The book begins with a review of general aspects of numerical simulations of turbulence. In the main part the author presents findings from his numerical studies on astrophysical turbulence and discusses the astrophysical implications. He also explains in detail the numerical schemes utilized. Readers will find that this book offers a compact yet comprehensive introduction."@en . . . "Fluid- and Aerodynamics." . . "Numerical and Computational Physics." . . "Turbulence Mathematical models." . .