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Title: Simulation of reactive nanolaminates using reduced models: II. Normal propagation

Journal Article · · Combustion and Flame
;  [1]
  1. Department of Mechanical Engineering, The Johns Hopkins University, Baltimore, MD 21218-2686 (United States)
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Transient normal flame propagation in reactive Ni/Al multilayers is analyzed computationally. Two approaches are implemented, based on generalization of earlier methodology developed for axial propagation, and on extension of the model reduction formalism introduced in Part I. In both cases, the formulation accommodates non-uniform layering as well as the presence of inert layers. The equations of motion for the reactive system are integrated using a specially-tailored integration scheme, that combines extended-stability, Runge-Kutta-Chebychev (RKC) integration of diffusion terms with exact treatment of the chemical source term. The detailed and reduced models are first applied to the analysis of self-propagating fronts in uniformly-layered materials. Results indicate that both the front velocities and the ignition threshold are comparable for normal and axial propagation. Attention is then focused on analyzing the effect of a gap composed of inert material on reaction propagation. In particular, the impacts of gap width and thermal conductivity are briefly addressed. Finally, an example is considered illustrating reaction propagation in reactive composites combining regions corresponding to two bilayer widths. This setup is used to analyze the effect of the layering frequency on the velocity of the corresponding reaction fronts. In all cases considered, good agreement is observed between the predictions of the detailed model and the reduced model, which provides further support for adoption of the latter. (author)

OSTI ID:
21285631
Journal Information:
Combustion and Flame, Vol. 157, Issue 3; Other Information: Elsevier Ltd. All rights reserved; ISSN 0010-2180
Country of Publication:
United States
Language:
English

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Related Subjects

37 INORGANIC
ORGANIC
PHYSICAL AND ANALYTICAL CHEMISTRY
77 NANOSCIENCE AND NANOTECHNOLOGY
EQUATIONS OF MOTION
LAYERS
THERMAL CONDUCTIVITY
RUNGE-KUTTA METHOD
COMPUTERIZED SIMULATION
VELOCITY
FLAME PROPAGATION
DIFFUSION
IGNITION
TRANSIENTS
NANOSTRUCTURES
NICKEL
ALUMINIUM
Reactive multilayers
Reduced models