John A. Schwille scite author profile

John A. Schwille

5Publications

68Citation Statements Received

91Citation Statements Given

How they've been cited

102

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Affiliations

The Aerospace Corporation, Northwestern University

Publications

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Hydrodynamic stability of a suspension in cylindrical Couette flow

Ali

Mitra

Schwille

et al. 2002

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A linear stability analysis was carried out for a dilute suspension of rigid spherical particles in cylindrical Couette flow. The perturbation equations for both the continuous fluid phase and the discontinuous particle phase were decomposed into normal modes resulting in an eigenvalue problem that was solved numerically. At a given radius ratio, the theoretical critical Taylor number at which Taylor vortices first appear decreases as the particle concentration increases. Increasing the ratio of particle density to fluid density above one decreases the stability. However, using an effective Taylor number based on the suspension density and viscosity largely accounts for this effect. The axial wave number is the same for a suspension as it is for a pure fluid. Experiments using neutrally buoyant particles in a Taylor-Couette apparatus show that the flow is more stable as the particle concentration increases. The reason that the theory does not fully capture the physics of the flow should be addressed in future research.

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Design parameters for rotating cylindrical filtration

Schwille

Mitra

Lueptow

2002

Journal of Membrane Science

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The reaction of a fire plume to a droplet spray

Schwille

Lueptow

2006

Fire Safety Journal

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Effect of a Fire Plume on Suppression Spray Droplet Motion

Schwille

Lueptow

2006

Atomiz Spr

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A Simplified Model of the Effect of a Fire Sprinkler Spray on a Buoyant Fire Plume

Schwille¹,

Lueptow²

2006

Journal of Fire Protection Engineering

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Equations describing the fluid motion in buoyant plumes have been applied to fire plumes by researchers and engineers since Morton et al. developed them in the 1950s. However, in the application of active fire suppression by water droplets, the equations are no longer valid. The equations have been modified to include the effect of a homogeneous, uniform velocity droplet field on the momentum of the fluid. Solving the resulting ordinary differential equations shows that the plume widens and the upward velocity of the plume slows significantly due to the presence of droplets. Results from this simple model appear to match the results of more sophisticated numerical simulations. The model further demonstrates that the interaction between the upward momentum of the plume and the downward momentum of the droplet spray can be critical for fire suppression.

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John A. Schwille

Hydrodynamic stability of a suspension in cylindrical Couette flow

Design parameters for rotating cylindrical filtration

The reaction of a fire plume to a droplet spray

Effect of a Fire Plume on Suppression Spray Droplet Motion

A Simplified Model of the Effect of a Fire Sprinkler Spray on a Buoyant Fire Plume

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