Description

Book Synopsis
This book discusses the physical mechanisms that drive counterflows, examining how they emerge, develop, become double and multiple counterflows and comprise both global and local circulations. Counterflows play an important role in nature and technology. A natural example is the Gulf Stream and the opposite flow in the ocean depths. Technological applications include hydrocyclones, vortex tubes and vortex combustors. These elongated counterflows are wildly turbulent but survive intense mixing, a seeming paradox. Local counterflows, whose spatial extent is small compared with that of surrounding flows, occur behind bluff bodies and in swirling streams. The latter are often referred to as vortex breakdown bubbles, which occur in tornadoes and above delta wings. Most scale counterflows are cosmic bipolar jets. Most miniature counterflows occur in capillary menisci of electrosprays and fuel atomisers.

Trade Review
'This book is very interesting and well written. Each chapter is clearly developed and the problems are well treated from both the theoretical and the practical points of view. It will be useful to all researchers interested in various problems related to counterflows.' Mirela Kohr, Mathematical Reviews
'The unique feature of the book is the attention to one special area of fluid dynamics, namely, counterflows. This makes the book an excellent reference for anyone who would like to know more about counterflows. It is also a rich source of special topics for inclusion in a graduate-level course in fluid dynamics.' Majid Molki, Heat Transfer Engineering

Table of Contents
1. Introduction; 2. Accumulation counterflows; 3. Bifurcation of swirl in conical counterflows; 4. Bifurcation of counter-swirl; 5. Conical counterflows driven by swirl; 6. Jetlike swirling counterflows; 7. Swirling counterflows in cylindrical devices; 8. Separation counterflows; 9. Temperature distribution in swirling counterflows; 10. Onset of buoyancy similarity counterflows; 11. Thermal convection counterflows; 12. Control of vortex breakdown; 13. Magnetic counterflows; 14. Stability of conical flows.

Counterflows

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    £999.99

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    A Hardback by Vladimir Shtern

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      View other formats and editions of Counterflows by Vladimir Shtern

      Publisher: Cambridge University Press
      Publication Date: 15/10/2012
      ISBN13: 9781107027596, 978-1107027596
      ISBN10:
      Also in:
      Technology, Engineering & Agriculture Engineering: Mechanics of fluids

      Description

      Book Synopsis
      This book discusses the physical mechanisms that drive counterflows, examining how they emerge, develop, become double and multiple counterflows and comprise both global and local circulations. Counterflows play an important role in nature and technology. A natural example is the Gulf Stream and the opposite flow in the ocean depths. Technological applications include hydrocyclones, vortex tubes and vortex combustors. These elongated counterflows are wildly turbulent but survive intense mixing, a seeming paradox. Local counterflows, whose spatial extent is small compared with that of surrounding flows, occur behind bluff bodies and in swirling streams. The latter are often referred to as vortex breakdown bubbles, which occur in tornadoes and above delta wings. Most scale counterflows are cosmic bipolar jets. Most miniature counterflows occur in capillary menisci of electrosprays and fuel atomisers.

      Trade Review
      'This book is very interesting and well written. Each chapter is clearly developed and the problems are well treated from both the theoretical and the practical points of view. It will be useful to all researchers interested in various problems related to counterflows.' Mirela Kohr, Mathematical Reviews
      'The unique feature of the book is the attention to one special area of fluid dynamics, namely, counterflows. This makes the book an excellent reference for anyone who would like to know more about counterflows. It is also a rich source of special topics for inclusion in a graduate-level course in fluid dynamics.' Majid Molki, Heat Transfer Engineering

      Table of Contents
      1. Introduction; 2. Accumulation counterflows; 3. Bifurcation of swirl in conical counterflows; 4. Bifurcation of counter-swirl; 5. Conical counterflows driven by swirl; 6. Jetlike swirling counterflows; 7. Swirling counterflows in cylindrical devices; 8. Separation counterflows; 9. Temperature distribution in swirling counterflows; 10. Onset of buoyancy similarity counterflows; 11. Thermal convection counterflows; 12. Control of vortex breakdown; 13. Magnetic counterflows; 14. Stability of conical flows.

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