000 | 02521nam a22002057a 4500 | ||
---|---|---|---|
003 | OSt | ||
005 | 20231222155529.0 | ||
008 | 231222b |||||||| |||| 00| 0 eng d | ||
020 | _a9781107176195 | ||
040 | _aICTS-TIFR | ||
050 | _aQC73.8 | ||
100 | _aVerma, Mahendra K. | ||
245 | _aEnergy transfers in fluid flows : multiscale and spectral perspectives | ||
260 |
_aCambridge University Press, _bCambridge, U.K.: _c[c2019] |
||
300 | _a541 p. | ||
505 | _aPreface Acknowledgement Dedication Part I: 1. Introduction 2. Basics of Hydrodynamics 3. Fourier space description of hydrodynamics 4. Energy transfers in hydrodynamic flows 5. Energy spectrum and flux of 3D hydrodynamics 6. Enstrophy transfers in hydrodynamics 7. Two-dimensional turbulence 8. Helical turbulence 9. Craya-Herring and helical basis 10. Field-theoretic treatment of energy transfers 11. Energy transfers in anisotropic flows' 12. Energy transfers in real space Part II: 13. Energy transfers in passive scalar 14. Stably stratified turbulence 15. Thermal convection 16. Rotating turbulence 17. Magnetohydrodynamic turbulence: Formalism 18. Magnetohydrodynamic turbulence: applications 19. Magnetic Field Generation in MHD 20. Energy transfers in compressible turbulence 21. Shell modes of turbulence 22. Miscellaneous applications of energy transfers Appendix A. Power lay physics Appendix B. Money or wealth transfers in economy Appendix C. Renormalization group analysis of hydrodynamic turbulence Notes References Subject Index. | ||
520 | _aAn up-to-date comprehensive text useful for graduate students and academic researchers in the field of energy transfers in fluid flows. The initial part of the text covers discussion on energy transfer formalism in hydrodynamics and the latter part covers applications including passive scalar, buoyancy driven flows, magnetohydrodynamic (MHD), dynamo, rotating flows and compressible flows. Energy transfers among large-scale modes play a critical role in nonlinear instabilities and pattern formation and is discussed comprehensively in the chapter on buoyancy-driven flows. It derives formulae to compute Kolmogorov's energy flux, shell-to-shell energy transfers and locality. The book discusses the concept of energy transfer formalism which helps in calculating anisotropic turbulence.---summary provided by publisher | ||
856 |
_uhttps://assets.cambridge.org/97811071/76195/toc/9781107176195_toc.pdf _yTable of Contents- detailed |
||
942 |
_2lcc _cBK |
||
999 |
_c32975 _d32975 |