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Thermoacoustic Combustion Instability Control
Engineering Applications and Computer Codes
Presents recent developments on thermoacoustic instability from technical, theoretical and engineering perspectives
Dan Zhao (Author)
9780323899109
Paperback / softback, published 21 February 2023
1144 pages, Approx. 400 illustrations
23.5 x 19 x 6.8 cm, 2.4 kg
Thermoacoustic Combustion Instability Control: Engineering Applications and Computer Codes provides a unique opportunity for researchers, students and engineers to access recent developments from technical, theoretical and engineering perspectives. The book is a compendium of the most recent advances in theoretical and computational modeling and the thermoacoustic instability phenomena associated with multi-dimensional computing methods and recent developments in signal-processing techniques. These include, but are not restricted to a real-time observer, proper orthogonal decomposition (POD), dynamic mode decomposition, Galerkin expansion, empirical mode decomposition, the Lattice Boltzmann method, and associated numerical and analytical approaches. The fundamental physics of thermoacoustic instability occurs in both macro- and micro-scale combustors. Practical methods for alleviating common problems are presented in the book with an analytical approach to arm readers with the tools they need to apply in their own industrial or research setting. Readers will benefit from practicing the worked examples and the training provided on computer coding for combustion technology to achieve useful results and simulations that advance their knowledge and research.
1. Introduction to thermoacoustic instability 2. Nonlinear dynamics of thermoacoutics 3. Non-normality, transient growth and non-orthogonality 4. Intrinsic thermoacoustics 5. Acoustic-flames interaction 6. Active control of thermoacoustics 7. Passive control of thermoacoustic instability 9. Aeroacoustic dampers 10. CFD thermoacoustics instability 11. POD and EMD analyses of Rijke-type thermoacoustic instability
Subject Areas: Energy technology & engineering [TH], Mechanical engineering [TGB]
