Description

Book Synopsis
A cell, whose spatial extent is small compared with a surrounding flow, can develop inside a vortex. Such cells, often referred to as vortex breakdown bubbles, provide stable and clean flame in combustion chambers; they also reduce the lift force of delta wings. This book analyzes cells in slow and fast, one- and two-fluid flows and describes the mechanisms of cell generation: (a) minimal energy dissipation, (b) competing forces, (c) jet entrainment, and (d) swirl decay. The book explains the vortex breakdown appearance, discusses its features, and indicates means of its control. Written in acceptable, non-math-heavy format, it stands to be a useful learning tool for engineers working with combustion chambers, chemical and biological reactors, and delta-wing designs.

Table of Contents
1. Introduction; 2. Creeping eddies; 3. Two-fluid creeping flows; 4. Formation of cells in thermal convection; 5. Swirl decay mechanisms; 6. Vortex breakdown in a sealed cylinder; 7. Cellular whirlpool flow; 8. Cellular water-spout flow; 9. Cellular flows in vortex devices.

Cellular Flows

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    RRP £161.00 – you save £16.10 (10%)

    Order before 4pm today for delivery by Tue 16 Jun 2026.

    A Hardback by Vladimir Shtern

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      Publisher: Cambridge University Press
      Publication Date: 08/02/2018
      ISBN13: 9781108418621, 978-1108418621
      ISBN10: 1108418627
      Also in:
      Science & Nature Cellular biology (cytology) Physics: Fluid mechanics Technology, Engineering & Agriculture Engineering: general

      Description

      Book Synopsis
      A cell, whose spatial extent is small compared with a surrounding flow, can develop inside a vortex. Such cells, often referred to as vortex breakdown bubbles, provide stable and clean flame in combustion chambers; they also reduce the lift force of delta wings. This book analyzes cells in slow and fast, one- and two-fluid flows and describes the mechanisms of cell generation: (a) minimal energy dissipation, (b) competing forces, (c) jet entrainment, and (d) swirl decay. The book explains the vortex breakdown appearance, discusses its features, and indicates means of its control. Written in acceptable, non-math-heavy format, it stands to be a useful learning tool for engineers working with combustion chambers, chemical and biological reactors, and delta-wing designs.

      Table of Contents
      1. Introduction; 2. Creeping eddies; 3. Two-fluid creeping flows; 4. Formation of cells in thermal convection; 5. Swirl decay mechanisms; 6. Vortex breakdown in a sealed cylinder; 7. Cellular whirlpool flow; 8. Cellular water-spout flow; 9. Cellular flows in vortex devices.

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