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Gaseous detonation physics and its u...

Jiang, Z.

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Gaseous detonation physics and its universal framework theory

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Gaseous detonation physics and its universal framework theory/ by Zonglin Jiang, Honghui Teng.
作者:	Jiang, Z.
其他作者:	Teng, Honghui.
出版者:	Singapore :Springer Nature Singapore : : 2022.,
面頁冊數:	xi, 273 p. :ill., digital ;24 cm.
內容註:	Introduction -- Mathematical equations and computational methods -- Classical theories of gaseous detonations and dynamic parameters -- Cellular detonation features and experimental observations -- Universal framework theory for initiation and propagation of regular gaseous detonation -- Structures and stationary rules of oblique detonations -- Engineering applications of gaseous detonation phenomena.
Contained By:	Springer Nature eBook
標題:	Gas dynamics. -
電子資源:	https://doi.org/10.1007/978-981-19-7002-3
ISBN:	9789811970023

Gaseous detonation physics and its universal framework theory
Jiang, Z.

Gaseous detonation physics and its universal framework theory[electronic resource] /by Zonglin Jiang, Honghui Teng. - Singapore :Springer Nature Singapore :2022. - xi, 273 p. :ill., digital ;24 cm. - Shock wave and high pressure phenomena,2197-9537. - Shock wave and high pressure phenomena..

Introduction -- Mathematical equations and computational methods -- Classical theories of gaseous detonations and dynamic parameters -- Cellular detonation features and experimental observations -- Universal framework theory for initiation and propagation of regular gaseous detonation -- Structures and stationary rules of oblique detonations -- Engineering applications of gaseous detonation phenomena.

This book highlights the theories and research progress in gaseous detonation research, and proposes a universal framework theory that overcomes the current research limitations. Gaseous detonation is an extremely fast type of combustion that propagates at supersonic speed in premixed combustible gas. Being self-sustaining and self-organizing with the unique nature of pressure gaining, gaseous detonation and its gas dynamics has been an interdisciplinary frontier for decades. The research of detonation enjoyed its early success from the development of the CJ theory and ZND modeling, but phenomenon is far from being understood quantitatively, and the development of theories to predict the three-dimensional cellular structure remains a formidable task, being essentially a problem in high-speed compressible reacting flow. This theory proposed by the authors' research group breaks down the limitation of the one-dimensional steady flow hypothesis of the early theories, successfully correlating the propagation and initiation processes of gaseous detonation, and realizing the unified expression of the three-dimensional structure of cell detonation. The book and the proposed open framework is of high value for researchers in conventional applications such as coal mine explosions and chemical plant accidents, and state-of-the-art research fields such as supernova explosion, new aerospace propulsion engines, and detonation-driven hypersonic testing facilities. It is also a driving force for future research of detonation.

ISBN: 9789811970023

Standard No.: 10.1007/978-981-19-7002-3doiSubjects--Topical Terms:

663353
Gas dynamics.

LC Class. No.: QC168

Dewey Class. No.: 533.2

Gaseous detonation physics and its universal framework theory
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520 $a This book highlights the theories and research progress in gaseous detonation research, and proposes a universal framework theory that overcomes the current research limitations. Gaseous detonation is an extremely fast type of combustion that propagates at supersonic speed in premixed combustible gas. Being self-sustaining and self-organizing with the unique nature of pressure gaining, gaseous detonation and its gas dynamics has been an interdisciplinary frontier for decades. The research of detonation enjoyed its early success from the development of the CJ theory and ZND modeling, but phenomenon is far from being understood quantitatively, and the development of theories to predict the three-dimensional cellular structure remains a formidable task, being essentially a problem in high-speed compressible reacting flow. This theory proposed by the authors' research group breaks down the limitation of the one-dimensional steady flow hypothesis of the early theories, successfully correlating the propagation and initiation processes of gaseous detonation, and realizing the unified expression of the three-dimensional structure of cell detonation. The book and the proposed open framework is of high value for researchers in conventional applications such as coal mine explosions and chemical plant accidents, and state-of-the-art research fields such as supernova explosion, new aerospace propulsion engines, and detonation-driven hypersonic testing facilities. It is also a driving force for future research of detonation.
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